Forney 210 User manual

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CAT# 311

REV 04.14.2017

FEATURES:

• 210 Amp Output / 230V Input

• For Steel, Stainless Steel, and Aluminum

welding

• Aluminum drive system and

easy-to-remove torch

• Optional spool gun increases flexibility

• Cable wrap

• Easy to use, increases productivity

• Rugged transformer with heavy duty

capacitors for smooth arc

• Simple to adjust and use

• Quality de-spooler that easily adapts

between spools

IDEAL FOR:

General Fabrication, Auto Body, Farm &

Ranch, Sheet Metal, Contractor, and More...

INCLUDES:

Torch, Ground Cable and Clamp, Input Power

Cable, Gas Hose and Regulator

210 MIG WELDER

OPERATING MANUAL

ENGLISH

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Forney Promise

We are committed to your success regardless of location, size or

needs. We understand it is your goal to get the job done right,

and we are ready to help you do just that.

President's Message

We market the highest quality tools, equipment and accessories

for the do-it-yourselfer and professional. Our passion and

dedication in bringing new products to the industrial and retail

market, combined with our personal service, is unmatched in our

industry. Our ability to listen to our customers’ needs enables us to

create solutions to their problems.

Our dedication to the highest quality customer service within our

corporate headquarters and the service provided in the field is

unequaled. We are committed to creating the best solutions to our

customer’s needs. Above all, our employees will provide the same

respect and caring attitude within the organization as they are

expected to share with every Forney customer. Our goal will be to

exceed our customers’ expectations through empowered people,

guided by shared values and commitments.

We work hard so our customers trust us because of our integrity,

teamwork and innovation of Forney products, and Forney’s

80 years of unmatched product quality and an unwavering

commitment to our customers.

When our customers succeed we succeed.

STEVEN G. ANDERSON, President & CEO

reproduction and/or distribution is

subject to US copyright laws.

U.S. Warehouses:

- Fort Collins, CO

- Tipp City, OH

FIVE WAYS TO ORDER

Web: www.forneyind.com

Phone: 800-521-6038

Fax: 970-498-9505

Mail: Forney Industries

2057 Vermont Drive

Fort Collins, CO 80525

Email: sales@forneyind.com

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STOP!

PLEASE DO NOT

RETURN TO THE STORE

If you have questions or problems with your new plasma cutter,

please call customer service at 1-800-521-6038

Monday through Friday from 7 a.m. - 5 p.m. (MST) or at

www.forneyind.com/about-us/contact-us.

Please take time to register your product at

www.forneyind.com/support/product-registration.

Thank you and enjoy your new welder.

For the most up-to-date

warranty information,

visit www.forneyind.com

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CAUTION!

BEFORE INSTALLING, OPERATING OR CARRYING OUT MAINTENANCE ON THE MACHINE, READ THE CONTENTS OF THIS MANUAL

CAREFULLY, PAYING PARTICULAR ATTENTION TO THE SAFETY RULES AND HAZARDS.

In the event of these instructions not being clear, please contact your

Forney Authorized Dealer or Forney Customer Service 1-800-521-6038

• Safety in Welding and Cutting, ANSI Standard Z49.1, from American Welding Society, 8669 Doral

Boulevard, Suite 130, Doral, FL 33166 Safety and Health Standards, OSHA 29 CFR 1910, from

Superintendent of Documents, U.S. Government Printing Office, Washington, D.C. 20402.

• Recommended Safe Practices for the Preparation for Welding and Cutting of Containers That Have

Held Hazardous Substances, American Welding Society Standard AWS F4.1, from American

Welding Society, 8669 Doral Boulevard, Suite 130, Doral, FL 33166

• National Electrical Code, NFPA Standard 70, from National Fire Protection Association,

Batterymarch Park, Quincy, MA 02269.

• Safe Handling of Compressed Gases in Cylinders, CGA Pamphlet P-1, from Compressed Gas

Association, 1235 Jefferson Davis Highway, Suite 501, Arlington, VA 22202.

• Code for Safety in Welding and Cutting, CSA Standard W117.2, from Canadian Standards

Association, Standards Sales, 178 Rexdale Boulevard, Rexdale, Ontario, Canada M9W 1R3.

• Safe Practices For Occupation And Educational Eye And Face Protection, ANSI Standard Z87.1,

from American National Standards Institute, 1430 Broadway, New York, NY 10018.

• Cutting And Welding Processes, NFPA Standard 51B, from National Fire Protection Association,

Batterymarch Park, Quincy, MA 02269

California Proposition 65 Warning

WARNING: This product can expose you to chemicals including lead, which are known to the State

of California to cause cancer and birth defects or other reproductive harm. For more information go to

www.P65Warnings.ca.gov. P65 details at forneyind.com. Wash hands after use.

EMF Information

Welding or cutting current, as it flows through the welding or cutting cables, will cause electromagnetic

fields. There has been and still is some concern about such fields. However, after examination the

committee of the National Research Council concluded that: “The body of evidence, in the committee’s

judgment, has not demonstrated that exposure to power-frequency electric and a magnetic field is a

human health hazard.” However, studies are still going forth and evidence continues to be examined.

Until the final conclusions of the research are reached, you may wish to minimize your exposure to

electromagnetic fields when welding or cutting.

To reduce magnetic fields in the workplace, use the following procedures:

1. Keep cables close together by twisting or taping them.

2. Arrange cables to one side and away from the operator.

3. Do not coil or drape cables around your body.

4. Keep welding or cutting power source and cables as far away from operator as practical.

5. Connect work clamp to work piece as close to the cut or weld as possible.

ABOUT PACEMAKERS & HEARING AIDS:

Pacemaker & Hearing Aid wearers consult your doctor first. If cleared by your doctor, then following

the above procedures is recommended.

Safety Information

Principal Safety Standards

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Personal Protection

Welding processes of any kind can be dangerous not only to the operator but to any person situated

near the equipment, if safety and operating rules are not strictly observed.

THE WELDING ARC PRODUCES VERY BRIGHT ULTRAVIOLET AND INFRARED

LIGHT. THESE ARC RAYS WILL DAMAGE YOUR EYES AND BURN YOUR SKIN IF

YOU ARE NOT PROPERLY PROTECTED. To reduce the risk of injury from arc rays, read,

understand, and follow the safety instructions. In addition, make certain that anyone else that

uses this welding equipment, or is a bystander in the welding area understands and follows

these safety instructions as well. Helmets and filter should conform to ANSI Z87.1 standards.

• Do not look at an electric arc without proper protection. A welding arc is extremely bright

and intense and, with inadequate or no eye protection, the retina can be burned, leaving

a permanent dark spot in the field of vision. A shield or helmet with a #10 shade filter lens

(minimum) must be used.

• Do not strike a welding arc until all bystanders and you (the welder) have welding shields

and/or helmets in place.

• Do not wear a cracked or broken helmet and replace any cracked or broken filter lenses

immediately.

• Do not allow the uninsulated portion of the wire feed gun to touch the ground clamp or

grounded work to prevent an arc flash from being created on contact.

• Provide bystanders with shields or helmets fitted with an appropriate shade filter lens.

• Wear protective clothing. The intense light of the welding arc can burn the skin in much

the same way as the sun, even through light-weight clothing. Wear dark clothing of heavy

material. The shirt worn should be long sleeved and the collar kept buttoned to protect chest

and neck.

• Protect against reflected arc rays. Arc rays can be reflected off shiny surfaces such as a glossy

painted surface, aluminum, stainless steel, and glass. It is possible for your eyes to be injured

by reflected arc rays even when wearing a protective helmet or shield. If welding with a

reflective surface behind you, arc rays can bounce off the surface and off the filter lens. It can

get inside your helmet or shield and into your eyes. If a reflective background exists in your

welding area, either remove it or cover it with something non-flammable and non-reflective.

Reflective arc rays can also cause skin burn in addition to eye injury.

• Flying sparks can injure. Wear proper safety equipment to protect eyes and face. Shape

tungsten electrode on grinder wearing proper protection and in a safe location. Keep

flammables away and prevent fire from flying sparks.

FUMES, GASSES, AND VAPORS CAN CAUSE DISCOMFORT, ILLNESS, AND

DEATH! To reduce the risk, read, understand, and follow the safety instructions. In addition,

make certain that anyone else that uses this welding equipment or is a bystander in the welding

area, understands and follows these safety instructions as well.

• Read and understand manufacturers SDS and MSDS.

• Do not weld in an area until it is checked for adequate ventilation as described in ANSI

standard Z49.1. If ventilation is not adequate to exchange all fumes and gasses generated

during the welding process with fresh air, do not weld unless you (the welder) and all

bystanders are wearing air-supplied respirators.

• Do not heat metals coated with, or that contain, materials that produce toxic fumes (such as

galvanized steel), unless the coating is removed. Make certain the area is well ventilated, and

the operator and all bystanders are wearing air-sup plied respirators.

• Do not weld, cut or heat lead, zinc, cadmium, mercury, beryllium, antimony, cobalt,

manganese, selenium, arsenic, copper, silver, barium, chromium, vanadium, nickel, or similar

metals without seeking professional advice and inspection of the ventilation of the welding

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area. These metals produce extremely toxic fumes which can cause discomfort, illness and

death.

• Do not weld or cut in areas that are near chlorinated solvents. Vapors from chlorinated

hydrocarbons, such as trichloroethylene and perchloroethylene, can be decomposed by the

heat of an electric arc or its ultraviolet radiation. These actions can cause phosgene, a highly

toxic gas, to form, along with other lung and eye-irritating gasses. Do not weld or cut where

these solvent vapors can be drawn into the work area or where the ultraviolet radiation can

penetrate to areas containing even very small amounts of these vapors.

• Do not weld in a confined area unless it is being ventilated or the operator (and anyone else

in the area) is wearing an air-supplied respirator.

• Stop welding if you develop momentary eye, nose, or throat irritation as this indicates

inadequate ventilation. Stop work and take necessary steps to improve ventilation in the

welding area. Do not resume welding if physical discomfort persists.

Fire Prevention

FIRE OR EXPLOSION CAN CAUSE DEATH, INJURY, AND PROPERTY DAMAGE!

To reduce these risks, read, understand and follow the safety instructions. In addition, make

certain that anyone else that uses this welding equipment, or is a bystander in the welding

area, understands and follows these safety instructions as well. Remember: arc welding by

nature produces sparks, hot spatter, molten metal drops, hot slag and hot metal parts that can

start fires, burn skin and damage eyes.

• Do not wear gloves or other clothing that contains oil, grease, or other flammable

substances.

• Do not wear flammable hair preparations.

• Do not touch the hot weld bead or weld puddle until fully cooled.

• Do not weld in an area until it is checked and cleared of combustible and/or flammable

materials. Be aware that sparks and slag can fly 35 feet and can pass through small cracks

and openings. If work and combustibles cannot be separated by a minimum of 35 feet,

protect against ignition with suitable, snug-fitting, fire resistant, covers or shields.

• Do not weld on walls until checking for and removing combustibles touching the other side of

the walls.

• Do not weld, cut, or perform other such work on used barrels, drums, tanks, or other

containers that had a flammable or toxic substance. The techniques for removing flammable

substance and vapors, to make a used container safe for welding or cutting, are quite

complex and require special education and training.

• Do not strike an arc on a compressed gas or air cylinder. Doing so will create a brittle

area that can result in a violent rupture immediately or at a later time as a result of rough

handling.

• Do not weld or cut in an area where the air may contain flammable dust (such as grain

dust), gas, or liquid vapors (such as gasoline).

• Do not handle hot metal, such as the work piece or electrode stubs, with bare hands.

• Wear leather gloves, heavy long sleeve shirt, cuffless pants, high-topped shoes, helmet, and

cap. As necessary, use additional protective clothing such as leather jacket or sleeves, fire

resistant leggings, or apron. Hot sparks or metal can lodge in rolled up sleeves, pant cuffs,

or pockets. Sleeves and collars should be kept buttoned and pockets eliminated from the shirt

front.

• Have fire extinguisher equipment handy for immediate use. A portable chemical fire

extinguisher, type ABC, is recommended.

• Wear ear plugs when welding overhead to prevent spatter or slag from falling into ear.

• Make sure welding area has a good, solid, safe floor, preferably concrete or masonry, not

tiled, carpeted, or made of any other flammable material.

• Protect flammable walls, ceilings, and floors with heat resistant covers or shields.

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• Check welding area to make sure it is free of sparks, glowing metal or slag, and flames

before leaving the welding area.

• Wear garments free of oil or other flammable substances such as leather gloves, thick cotton

shirts with no synthetic materials, cuffless trousers, closed toed shoes. Keep long hair pulled

back.

• Remove any combustibles such as lighters and matches before doing any welding.

• Follow requirements in OSHA and NFPA for hot work and have an extinguisher nearby.

High Frequency Radiation

• High Frequency (H.F) can interfere with radio navigation, safety services, computers and

communication equipment.

• It is the user’s responsibility to have a qualified electrician promptly correct any interference

problem resulting from the installation. Electrician should regularly check and maintain

installation.

• Stop using the equipment if notified by the FCC about interference.

• Keep H.F. source doors and panels tightly shut and keep spark gaps at correct setting.

Arc Welding

• Computers and computer driven equipment can be harmed with electromagnetic energy.

• Be sure all equipment is compatible with electromagnetic energy.

• Keep welding cables short to reduce interference.

• Follow manual to install and ground machine.

• If interference continues, shield the work area or move the welding machine.

WARNING: ELECTRIC SHOCK CAN KILL! To reduce the risk of death or serious injury

from shock, read, understand, and follow the safety instructions. In addition, make certain

that anyone else who uses this welding equipment, or who is a bystander in the welding area

understands and follows these safety instructions as well.

IMPORTANT! TO REDUCE THE RISK OF DEATH, INJURY, OR PROPERTY

DAMAGE, DO NOT ATTEMPT OPERATION of this welding equipment until you have read

and understand the following safety summary.

• Do not, in any manner, come into physical contact with any part of the welding current

circuit. The welding current circuit includes:

a. the work piece or any conductive material in contact with it,

b. the ground clamp,

c. the electrode or welding wire,

d. any metal parts on the electrode holder, or wire feed gun.

• Do not weld in a damp area or come in contact with a moist or wet surface.

• Do not attempt to weld if any part of clothing or body is wet.

• Do not allow the welding equipment to come in contact with water or moisture.

• Do not drag welding cables, wire feed gun, or welder power cord through or allow them to

come into contact with water or moisture.

• Do not touch welder, attempt to turn welder on or off if any part of the body or clothing is

moist or if you are in physical contact with water or moisture.

• Do not attempt to plug the welder into the power source if any part of body or clothing is

moist, or if you are in physical contact with water or moisture.

• Do not connect welder work piece clamp to or weld on electrical conduit.

Electric Shock

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• Do not alter power cord or power cord plug in any way.

• Do not attempt to plug the welder into the power source if the ground prong on power cord

plug is bent over, broken off, or missing.

• Do not allow the welder to be connected to the power source or attempt to weld if the welder,

welding cables, welding site, or welder power cord are exposed to any form of atmospheric

precipitation, or salt water spray.

• Do not carry coiled welding cables around shoulders, or any other part of the body, when

they are plugged into the welder.

• Do not modify any wiring, ground connections, switches, or fuses in this welding equipment.

• Wear welding gloves to help insulate hands from welding circuit.

• Keep all liquid containers far enough away from the welder and work area so that if spilled,

the liquid cannot possibly come in contact with any part of the welder or electrical welding

circuit.

• Replace any cracked or damaged parts that are insulated or act as insulators such as

welding cables, power cord, or electrode holder immediately.

• When not welding, cut wire back to contact tip or remove electrode from electrode holder.

Noise

Noise can cause permanent hearing loss. Welding processes can cause noise levels that exceed

safe limits. You must protect your ears from loud noise to prevent permanent loss of hearing.

• To protect your hearing from loud noise, wear protective ear plugs and/or ear muffs.

• Noise levels should be measured to be sure the decibels (sound) do not exceed safe levels.

Additional Safety Information

For additional information concerning welding safety, refer to the following standards and comply with

them as applicable.

• ANSI Standard Z49.1 - SAFETY IN WELDING AND CUTTING - obtainable from the

American Welding Society, 550 NW Le Jeune Road, Miami, FL 33126 Telephone (800)

443-9353, Fax (305) 443-7559 - www.amweld.org or www.aws.org

• ANSI Standard Z87.1 - SAFE PRACTICE FOR OCCUPATION AND EDUCATIONAL EYE

AND FACE PROTECTION - obtainable from the American National Standards Institute, 11

West 42nd St., New York, NY 10036 Telephone (212) 642A900, Fax (212) 398-0023 -

www.ansi.org

• NFPA Standard 518 - CUTTING AND WELDING PROCESS - obtainable from the National

Fire Protection Association, 1 Batterymarch Park, P.O. Box 9101, Quincy, MA 02269-9101

Telephone (617) 770-3000 Fax (617) 770-0700 - www.nfpa.org

• OSHA Standard 29 CFR, Part 1910, Subpart Q., WELDING, CUTTING AND BRAZING

- obtainable from your state OSHA office or U.S. Dept. of Labor OSHA, Office of Public

Affairs, Room N3647, 200 Constitution Ave., Washington, DC 20210 - www.osha.gov

• CSA Standard W117.2 - Code for SAFE TY IN WELDING AND CUTTING. - obtainable

from Canadian Standards Association, 178 Rexdale Blvd., Etobicoke, Ontario M9W 1R3 -

www.csa.ca

• American Welding Society Standard A6.0. WELDING AND CUTTING CONTAINERS

WHICH HAVE HELD COMBUSTIBLES. - obtainable from the American Welding Society, 550

NW Le Jeune Road, Miami, FL 33126 Telephone (800) 443-9353, Fax (305) 443-7559 -

www.amweld.org or www.aws.org

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WARRANTY................................................................................................................................................4

SAFETY SUMMARY .....................................................................................................................................5

PRINCIPAL SAFETY STANDARDS ............................................................................................................5

CALIFORNIA PROPOSITION 65 WARNING............................................................................................5

EMF INFORMATION..............................................................................................................................5

PERSONAL PROTECTION ......................................................................................................................6

FIRE PREVENTION.................................................................................................................................7

HIGH FREQUENCY RADIATION.............................................................................................................8

ARC WELDING.....................................................................................................................................8

ELECTRIC SHOCK..................................................................................................................................8

NOISE..................................................................................................................................................9

ADDITIONAL SAFETY INFORMATION....................................................................................................9

TABLE OF CONTENTS................................................................................................................................10

INSTALLATION..........................................................................................................................................11

WELDER SPECIFICATIONS ..................................................................................................................11

SITE SELECTION .................................................................................................................................11

POWER SOURCE CONNECTION ........................................................................................................11

VENTILATION .....................................................................................................................................12

ADDITIONAL WARNINGS...................................................................................................................12

ASSEMBLY................................................................................................................................................12

TORCH LEAD AND SPOOL GUN ASSEMBLY ........................................................................................12

GAS CYLINDER AND REGULATOR CONNECTION ...............................................................................12

SHIELDING GAS GUIDE ......................................................................................................................13

WIRE LOADING..................................................................................................................................13

REPLACING THE WIRE LINER...............................................................................................................14

HOW TO CHOOSE THE WIRE LINER FOR DIRECT AND EURO CONNECT TORCHES .............................14

ARRANGEMENT FOR WELDING WITH A SPOOL GUN ........................................................................15

SETTING THE WIRE DRIVE SYSTEM......................................................................................................16

ADJUSTING THE SPOOL POSITION .....................................................................................................16

OPERATION..............................................................................................................................................17

DESCRIPTION .....................................................................................................................................17

WELDER CONTROLS...........................................................................................................................17

THERMAL OVERLOAD PROTECTION....................................................................................................18

TECHNICAL DATA INFORMATION GUIDE ............................................................................................18

WELDING PREPARATION ....................................................................................................................18

FACTORS TO CONSIDER FOR BEST WELDING RESULTS .......................................................................19

ALUMINUM WELDING........................................................................................................................19

MAINTENANCE & SERVICING...................................................................................................................20

GENERAL MAINTENANCE..................................................................................................................20

TROUBLSHOOTING...................................................................................................................................20

WIRING DIAGRAM ...................................................................................................................................23

TOOLS AND SPARE PARTS LIST..................................................................................................................24

PARTS DIAGRAM ......................................................................................................................................25

MIG GUN TORCH SPARE PARTS LIST..........................................................................................................26

USER NOTES ............................................................................................................................................27

Table of Contents

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Table 1. Welder Specifications

Primary (input) volts 230 VAC

Welding Output 210A maximum

Phase Single

Frequency

Rated Duty Cycle 60Hz

25%

Wire Diameter Range Up to 0.035”

BE SURE TO LOCATE THE WELDER ACCORDING TO THE FOLLOWING GUIDELINES:

• In areas free from moisture and dust;

• In areas with ambient temperature between 30° to 90°F;

• In areas free from oil, steam and corrosive gases;

• In areas not subjected to abnormal vibration or shock;

• In areas not exposed to direct sunlight or rain;

• Place at a distance of 12” or more from walls or similar obstructions that could restrict

natural air flow for cooling.

This welder is designed to operate on a properly grounded 230V, 60HZ, single-phase alternating

current (AC) power source fused with a 50A time-delayed fuse or circuit breaker. It is recommended

that a qualified electrician verify the actual voltage at the receptacle into which the welder will be

plugged and confirm that the receptacle is properly fused and grounded. The use of the proper circuit

size can eliminate nuisance circuit breaker tripping when welding.

Before you make any electrical connection, make sure that supply voltage and frequency available at

site are those stated in the ratings label of your welder.

The main supply voltage should be within ±10% of the rated main supply voltage. Too low a voltage

may cause poor welding performance. Too high a supply voltage will cause components to overheat

and possibly fail. The welder outlet must be:

• Correctly installed, if necessary, by a qualified electrician;

• Correctly grounded (electrically) in accordance with local regulations;

• Connected to the correct size electric circuit.

NOTE:

• Periodically inspect supply cable for any cracks or exposed wires. If it is not in good

condition, have it repaired by a Service Center.

• Do not violently pull the input power cable to disconnect it from supply outlet.

• Do not lay material or tools on the power supply cable. The cable may be damaged and

result in electrical shock.

• Keep the supply cable away from heat sources, oils, solvents or sharp edges.

Installation

Welder Specifications

Site Selection

Power Source Connection

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Since the inhalation of welding fumes can be harmful, ensure that the welding area is

effectively ventilated.

FOR YOUR SAFETY, BEFORE CONNECTING THE POWER SOURCE TO THE LINE

CLOSELY FOLLOW THESE INSTRUCTIONS:

• An adequate two-pole switch must be inserted before the main outlet. This switch must be

equipped with time-delay fuses.

• The ground connection must be made with a two-pole plug compatible with the above

mentioned socket.

• When working in a confined space, the welder must be kept outside the welding area and

the ground cable should be fixed to the workpiece. Never work in a damp or wet confined

space.

• Do not use damaged input or welding cables.

• The welding torch should never be pointed at the operator or other people.

• The welder must never be operated without its panels attached. This could cause serious

injury to the operator and could damage the equipment.

• Unpack the welder.

• Assemble the plastic top handle using the screws provided.

• Attach the welding torch cable to the threaded connection on the front of the welder.

• Attach the gas hose and the electrical connector.

• Plug the torch hose into the socket on the front of the welder paying attention not to

damage the contacts and secure by hand screwing in the threaded connection.

• To connect the spool gun, connect the spool gun cable to the threaded fitting on the front of

the welder and also connect the seven pin cannon type plug to the connector on the front of

the welder.

Gas Cylinder and Regulator Connection

The gas cylinder (not supplied) should be located at the rear of the welder, in a well-ventilated area

and securely fixed to the work bench or to the wall to ensure that it will not fall.

For safety and economy, ensure that the regulator is fully closed (turned counter-clockwise)

when not welding and when fitting or removing the gas cylinder.

• Turn the regulator adjustment knob counter-clockwise to ensure the valve is fully closed.

• Screw the gas regulator down on the gas bottle valve and tighten.

• Connect the gas hose to the regulator, securing with the clip/nut provided.

• Open the cylinder valve, then set the gas flow to approximately 20 - 35 CFH (cubic ft. per

hour) on the regulator.

• Operate the torch trigger to ensure that the gas is flowing through the torch.

Ventilation

Additional Warnings

Assembly

Torch Lead and Spool Gun Assembly

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WARNING: Cylinders are highly pressurized. Handle with care. Serious accidents can result

from improper handling or misuse of compresses gas cylinders. Do not drop the cylinder, knock

it over, expose it to excessive heat, flames or sparks. Do not strike it against other cylinders.

Shielding Gas Guide

METAL GAS NOTE

Mild Steel CO2

Argon + CO2

Argon + CO2 + Oxygen Argon controls spatter

Oxygen improves arc stability

Aluminum Argon

Argon + Helium

Arc stability, good fusion and minimum splatter.

Higher heat input suitable for heavy sections.

Minimum porosity.

Stainless Steel Argon + CO2 + Oxygen

Argon + Oxygen Arc stability.

Minimum splatter.

Copper, Nickel & Alloys Argon

Argon + Helium

Suitable for light gauges because of low

flowability of the weld pool.

Higher heat input suitable for heavy sections.

Wire Loading

Your MIG welder is designed to accept either 4” or 8” wire spools of mild steel, stainless steel or

aluminum according to the type of metal you wish to weld. Wire spools aren’t supplied with the unit

and must be purchased separately.

ENSURE GAS IS DISCONNECTED. Before proceeding, remove the nozzle and the contact

tip from the torch.

• Open the side panel. Loosen the nut of the spool holder. Remove the spacer. In case you are

replacing the wire spool, extract it by pushing the snap tongue.

• Remove the plastic protection from the spool. Place spool on the spool holder. Mount the

spacer again (only for 8” spools) and tighten the lock nut.

Your MIG welder can also accept 4” wire spools. To mount 4” spools:

• Remove the wire spool from the spool holder.

• Loosen the nut, remove the spring and the washer; remove the spool holder from the pivot.

• Insert on the pivot the 4” wire spool; Mount the washer, the spacer and the spring.

• Tighten the lock nut.

TIGHTEN NUT. EXCESSIVE PRESSURE STRAINS THE WIRE FEEDING MOTOR. TOO

LITTLE PRESSURE DOES NOT ALLOW THE WIRE SPOOL TO STOP IMMEDIATELY.

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• Loosen and lower the plastic knob (A). Release the upper

roll (B) of the feeder. Extract the wire from the torch liner.

• When the wire is disconnected, grasp it with pliers so

that it cannot exit from the spool. If necessary, straighten

it before inserting it in the wire input guide (C). Insert the

wire on the lower roll (D) and in the torch liner (E).

WARNING: Keep the torch straight when feeding a new

wire through the liner. Make sure the wire is cut cleanly

(no burrs or angles) and that at least 1/2” from the end

is straight (no curves). Failure to follow these instructions

could cause damage to the liner.

• Lower the upper roll (B) and place the knob (A). Tighten

slightly. If tightened too much, the wire gets locked and

could cause motor damage. If not tightened enough, the rolls will not feed the wire. NOTE:

When changing the wire diameter being used, or replacing the wire feed roll, be sure that

the correct groove for the wire diameter selected is inside, closest to the machine. The wire is

driven by the inside groove. Feed rolls are marked on the side identifying the groove nearest

that side.

•

Close the side panel of the machine. Connect the power supply cable to the outlet. Turn on the

switch. Press the torch switch. The wire fed by the wire feeding motor at variable speed must

slide through the liner. When it exits from the torch neck, release the torch switch. Turn off

the machine. Mount the contact tip and the nozzle.

NOTE: When checking the correct exit of

the wire from the torch do not bring your face near the torch. You may run the risk of being

wounded by the outgoing wire. Do not bring your fingers close

to the feeding mechanism

when working! The rolls, when moving,

may crush fingers. Periodically check the rolls.

Replace them

when they are worn and compromise the regular feeding of the wire.

Replacing the Wire Liner

BEFORE PERFORMING THIS PROCEDURE, BE SURE THE GAS SUPPLY LINE AND

INPUT POWER CABLE ARE DISCONNECTED.

• Disconnect the torch from the machine.

• Place it on a flat surface and carefully remove the brass nut.

• Pull the liner out of the hose.

• Install the new liner and mount the brass nut again.

In case you are replacing a Teflon or graphite wire liner, follow these

instructions:

• Install the new liner and insert the wire liner collet and the

O ring.

• Mount the brass nut.

• Cut the wire liner close to the brass nut NOTE: The length of the new wire liner must be the

same as the liner you have just pulled out of the hose.

• Connect the torch to the machine and install the wire into the feeding system.

How to Choose the Wire Liner for Direct and Euro Connect Torches

There are basically two types of wire liners: Steel and Teflon. Steel wire liners can be coated or non-

coated. Coated wire liners are used for air-cooled torches. Teflon wire liners are recommended for

aluminum welding as they allow smooth feeding of the wire.

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Arrangement For Welding With a Spool Gun

WARNING: Electric shock can kill! Always turn the POWER switch OFF and unplug the power

cord from the AC power source before installing wire.

Before installing any welding wire into the unit,

the appropriate drive roll must be placed into position

on the wire drive mechanism. Ensure the groove is the

proper shape and size for the wire being used. Adjust

the drive roll according to the following steps:

1. Open the wire drive cover on the spool gun.

2. Remove the drive tension by loosening the

tension adjusting screw and lifting the drive

tension adjustor up, away from the drive

tension arm. Pull the drive tension arm away from the drive roller.

3. If needed, loosen the tension adjusting screw on the drive tension arm. Pull the drive tension

arm up to allow access to the drive roll within the wire drive system. Rotate the black drive

roll cap counterclockwise and remove it to reveal the metallic drive roll. Pull the drive roll

off its shaft. NOTE: The drive roll has two wire size (.030” and .035”) grooves built into it.

Ensure the corresponding groove and wire size are used. Replace the drive roll onto its shaft

and drive roll cap onto the drive roll.

4. Find the side of the drive roller that is stamped with the same wire diameter as that of the

wire being installed. Push the drive roller onto the drive roller shaft, with the side stamped

with the desired wire diameter facing you.

5. Reinstall the drive roller cap and lock in place by turning it clockwise.

6. Remove the nozzle and contact tip from the end of the gun assembly.

7. Open the wire spool casing, located at the rear of the spool gun, by turning the retaining

knob counterclockwise.

8. Unwrap the spool of wire and find the end of the wire.

9. After checking to make sure that your welder is disconnected from the AC power source, free

the leading end of the wire from the spool, but do not let go of it until told to do so, or the

wire will unspool itself.

10. Using a wire cutter, cut off the bent portion at the end of the wire so that you are left with a

straight section of wire.

11. Unroll about 6” of welding wire from the wire spool.

12. Insert the leading end of the wire into the inlet guide tube (located in the Wire Spool

Casing). Then push it across the drive roller and into the gun assembly about 6”.

13. Line the wire up in the appropriate top groove of the drive roller, then push the drive tension

arm against the drive roller.

14. Flip the quick release drive tensioner back into position on the drive tensioner arm.

15. Tighten (turn clockwise) the drive tension adjusting knob until the tension roller is applying

16 WWW.FORNEYIND.COM

enough force on the wire to prevent it from slipping out of the drive assembly.

16. Let go of the wire.

17. The welding wire should always come off the top of the spool into the drive mechanism.

NOTE: The purpose of the drive brake is to cause the spool of wire to stop turning at nearly

the same moment that wire feeding stops.

18. Set the Drive Brake tension. NOTE: It is necessary to release the Drive Tensioner Arm while

you are setting the Drive Brake Tension. Make sure you return the Drive Tension Arm to its

locked position after adjusting the Drive Brake Tension.

a) With one hand, turn the wire spool counterclockwise. This will cause the wire to feed

through the gun assembly continue turning it while adjusting the tension on the spool.

b) With your free hand, tighten (turn clockwise) the drive brake adjustment knob.

c) Stop tightening when drag is felt on the wire spool that you are turning. Then stop hand-

turning the wire spool. NOTE: If too much tension is applied to the wire spool, the wire

will slip on the drive roller or will not be able to feed at all. If too little tension is applied,

the spool of wire will want to unspool itself. Readjust the drive brake tension as necessary

to correct for either problem.

19. Trim the wire which is sticking out the end of the spool gun to about 1/2” in length.

20. Select a contact tip stamped with the same diameter as the wire being used.

21. Slide the contact tip over the wire protruding from the end of the gun.Thread the contact tip

into the end of the gun and hand-tighten securely.

22. Install the nozzle on the gun assembly. For best results, coat the inside of the nozzle with

anti-stick spray or gel.

23. Cut off the excess wire that extends past the end of the nozzle.

24. Replace the wire spool casing cover and tighten adjustment knob by turning it clockwise.

25.

Connect the welder power cord to the AC power source. Turn the welder ON. Set the VOLTAGE switch.

WARNING: Arc flash can injure eyes! To reduce the risk of arc flash, make certain that the

wire coming out of the end of the gun does not come in contact with the work piece, ground

clamp or any grounded material during the drive tension setting process or arcing will occur.

1. Open the wire drive cover on the spool gun

2. Pull the trigger on the gun.

3. Turn the drive tension adjustment knob clockwise, increasing the drive tension until the wire

seems to feed smoothly without slipping.

4. Close the wire drive cover on the spool gun.

5. When set correctly, there should be no slippage between the wire and the drive roller under

normal conditions.

Before you begin welding, you may want to adjust the position of the spool so it is most

comfortable for

you. There are three positions to choose from. To change the position of the spool:

1. With a flat tipped screwdriver, loosen the screw which connects the spool casing to the gun.

2. Pull the casing far enough away from the gun to allow the casing to rotate.

3. Rotate the casing to one of the three available positions, making sure that the grooves on the

gun are aligned with the grooves on the casing.

4. Push the casing and the gun back together.

5. With a flat tipped screwdriver, tighten the screw which connects the spool casing to the gun.

Setting the Wire Drive System

Adjusting the Spool Position

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The Forney 210 MIG welder is designed for use on jobs involving maintenance and fabrication. It is

ideal for applications such as farming, automotive, and repairs. This transformer-based machine is

powered from 230V current and produces up to 210A output. The acceptable wire diameters for use

on this machine include .024”, .030”, and .035”. The spool sizes compatible with this machine are

4” and 8” and should be loading clockwise, so the wire feeds from the top into the wire feeing system.

This machine can weld materials up to 3/8” in thickness.

Units may be used either with the standard torch (supplied with them) or with the Spool Gun.

1. Main ON/OFF switch and welding voltage adjustment

2. Wire feed adjustment knob: To increase the wire speed, turn the potentiometer clockwise; to

decrease the wire speed, turn it counter-clockwise. The same procedure decreases the values

on the welding parameters. Turn knob slowly.

3. Overheating indicator (yellow): This LED blinks when unit is overheating. It will light up

when thermostatic protection shut down the machine and will cease blinking only after the

machine has cooled sufficiently to continue welding.

4. Ground Clamp

5. MIG Torch/Gun: Remove for spool gun change and disconnect gas and electrical connector.

Reconnect gas and electrical connector after change over.

6. 7-pin connector for connecting spool gun

Operation

Description

Welder Controls

18 WWW.FORNEYIND.COM

WARNING: If the duty cycle of the welder is exceeded, a thermostat will automatically cut

the power to prevent the machine from overheating. If this should happen do not unplug the

machine while it cools down. The thermostat will automatically reset itself and you can continue

welding. The thermostat is a protective safety device and no harm will normally be done to the

welder unless it is frequently over-loaded, in which case it may eventually become damaged.

1. Serial number of the unit

2. Welder model

3. Type of characteristic

4. Min. - Max rated No Load Voltage

5. Type of welding

6. Symbol for the main supply and no. of phases

7. Rated value of the supply voltage

8. Code letter for degree of insulation

9. Protection degree

10. Power

11. Size of the necessary main fuse

12. Supply current

13. Welding supply and voltage

14. Power Factor

15. Control range (current / voltage)

16. Reference standard

• Attach the ground clamp to the bare metal to be welded, making sure of good contact;

• Make sure that the wire-roller groove in the roller corresponds to the diameter of the wire

being used.

• Plug the machine into a suitable outlet.

•

Completely open the gas cylinder valve. Adjust the gas pressure regulator to the correct

flow rate.

Thermal Overload Protection

Technical Data Information Guide

Welding Preparation

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Some experience is required to adjust and use a MIG welder. In MIG welding two parameters are

fundamental: the welding voltage and the wire speed. The resulting welding current is a result of these

two settings.

• Set the voltage and wire feed controls to positions suitable for the thickness of the material

to be welded. Welding current varies in relationship to wire feed speed. For low welding

current output, the wire feed speed potentiometer should be set at the low end of the wire

feed speed scale. Turning the wire feed speed control potentiometer clockwise will result

in increased wire feed speed and welding current. Welding voltage is adjusted to match

the wire feed speed (welding current). Progressively select higher voltage positions while

increasing wire speed.

Increasing welding voltage leads to a longer arc (without substantially affecting the current).

Conversely, a decreased welding voltage results in a shorter arc (the current again is not substancially

changed). A change in wire diameter results in changed parameters. A smaller diameter wire

requires an increase in wire feed speed to reach the same current. If certain limits are exceeded, a

satisfactory weld cannot be obtained. These are:

A) Feeding wire too fast (too high with regard to the welding voltage) results in pulsing within

the torch. This is because the wire electrode dips into the puddle and cannot be melted off

fast enough.

B) Setting welding voltage to high (too high with regard to the wire feed speed), will result in

excessive and unstable arc. Increase the voltage even higher and the contact tip will burn.

C) Excessive wire speed can be corrected through the arc voltage increase. The limit of this

adjustment depends on the thickness of the material to be welded (a certain limit exceeded

will result in burn through).

Place the torch on the joint you want to weld: the angle between the torch and the nozzle should be

around 45°. The distance between the torch and the work piece should be 5-1/2”. Lower the face

shield and press the torch trigger to start the arc. When the arc has struck, move the nozzle slowly

from left to right along the joint. Adjust the wire feed speed until the arc makes a “crisp” sound

(experience will help you to recognize the right sound).

The machine should be set up for mild steel except for the following changes:

• 100% ARGON as welding protective gas.

• Ensure that your torch is set up for aluminum welding:

• The length of the torch cable should not exceed 10’ (it is advisable not to use longer torches).

•

Install a Teflon wire liner. Follow the instructions for changing the renewing of the wire liner.

• Ensure that drive rolls are suitable for aluminum wire.

• Use contact tips that are suitable for aluminum wire and make sure that the diameter of the

contact tip hole corresponds to the wire diameter that is going to be used.

Factors to Consider for Best Welding Results

Aluminum Welding

20 WWW.FORNEYIND.COM

• Always weld clean, dry and well-prepared material.

• Hold gun at a 45° angle to the workpiece with nozzle about 1/2” from the surface.

• Move the gun smoothly and steadily as you weld.

• Avoid welding in very drafty areas. A weak, pitted and porous weld will result due to air

blowing away the protective welding gas.

• Keep wire and wire liner clean. Do not use rusty wire.

• Sharp bends or kinks in the welding cable should be avoided.

• Always try to avoid getting particles of metal inside the machine since they could cause short

circuits or other damage.

• If available, use compressed air to periodically clean the hose liner, especially when

changing wire spools. NOTE: Disconnect from power source when carrying out this

operation.

• Using low pressure air (3/5 Bar=20-30 PSI), occasionally blow the dust from the inside of

the welder. This keeps the machine running cooler. NOTE: Do not blow air over the printed

circuit board and electronic components.

• The wire feed roller will eventually wear during normal use. With the correct tension the

pressure roller must feed the wire without slipping. If the pressure roller and the wire feed

roller make contact when the wire is in place between them, the wire feed roller must be

replaced.

• Check all cables periodically. They must be in good condition and not cracked.

This chart will assist you in resolving common problems you may encounter. These are not all the

possible solutions.

PROBLEM POSSIBLE CAUSE POSSIBLE SOLUTION

No “power” from welder. Input cable or plug malfunction.

Wrong size fuse.

Faulty on/off switch.

Check for proper input cable

connection.

Check fuse and replace as

necessary.

Replace on/off switch.

Fan operates normally, but

when gun trigger pulled,

there is no wire feed, weld

output or gas flow.

Faulty trigger gun.

Thermostat intervention.

Unit is set to REMOTE.

Replace torch trigger.

Allow welder to cool. When the

pilot lamp/switch on the front panel

goes dark indicates the thermostat

has closed.

Change REMOTE to LOCAL inside

the machine.

Maintenance & Servicing

General Maintenance

Troubleshooting

Table of contents

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