Lincoln Electric Welder UWW 170 User Manual

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IM591-B  
March, 2001  
SP 170-I and UWW-170  
For use with machine Code Numbers  
thru  
10634, 10693,10694  
10488  
Safety Depends on You  
Lincoln arc welding and cutting  
equipment is designed and built  
with safety in mind. However, your  
overall safety can be increased by  
proper installation ... and thought-  
ful operation on your part. DO  
NOT INSTALL, OPERATE OR  
REPAIR THIS EQUIPMENT  
WITHOUT READING THIS  
MANUAL AND THE SAFETY  
PRECAUTIONS CONTAINED  
THROUGHOUT. And, most  
importantly, think before you act  
and be careful.  
Date of Purchase:  
Serial Number:  
Code Number:  
Model:  
Where Purchased:  
OPERATOR’S MANUAL  
ISO 9001  
ANSI RAB  
QMS  
Designed and Manufactured Under a  
Quality Program Certified by  
ABS Quality Evaluations, Inc.  
to ISO 9001 Requirements.  
Copyright © 2001 Lincoln Global Inc.  
CERTIFICATE NUMBER: 30273  
• World's Leader in Welding and Cutting Products •  
• Sales and Service through Subsidiaries and Distributors Worldwide •  
Cleveland, Ohio 44117-1199 U.S.A. TEL: 216.481.8100 FAX: 216.486.1751 WEB SITE: www.lincolnelectric.com  
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ii  
SAFETY  
ARC RAYS can burn.  
ELECTRIC SHOCK can  
4.a. Use a shield with the proper filter and cover  
plates to protect your eyes from sparks and  
the rays of the arc when welding or observing  
open arc welding. Headshield and filter lens  
should conform to ANSI Z87. I standards.  
kill.  
3.a. The electrode and work (or ground) circuits  
are electrically hotwhen the welder is on.  
Do not touch these hotparts with your bare  
skin or wet clothing. Wear dry, hole-free  
gloves to insulate hands.  
4.b. Use suitable clothing made from durable flame-resistant  
material to protect your skin and that of your helpers from  
the arc rays.  
3.b. Insulate yourself from work and ground using dry insulation.  
Make certain the insulation is large enough to cover your full  
area of physical contact with work and ground.  
4.c. Protect other nearby personnel with suitable, non-flammable  
screening and/or warn them not to watch the arc nor expose  
themselves to the arc rays or to hot spatter or metal.  
In addition to the normal safety precautions, if welding  
must be performed under electrically hazardous  
conditions (in damp locations or while wearing wet  
clothing; on metal structures such as floors, gratings or  
scaffolds; when in cramped positions such as sitting,  
kneeling or lying, if there is a high risk of unavoidable or  
accidental contact with the workpiece or ground) use  
the following equipment:  
FUMES AND GASES  
can be dangerous.  
5.a. Welding may produce fumes and gases  
hazardous to health. Avoid breathing these  
• Semiautomatic DC Constant Voltage (Wire) Welder.  
• DC Manual (Stick) Welder.  
• AC Welder with Reduced Voltage Control.  
fumes and gases.When welding, keep  
your head out of the fume. Use enough  
ventilation and/or exhaust at the arc to keep  
fumes and gases away from the breathing zone. When  
welding with electrodes which require special  
ventilation such as stainless or hard facing (see  
instructions on container or MSDS) or on lead or  
cadmium plated steel and other metals or coatings  
which produce highly toxic fumes, keep exposure as  
low as possible and below Threshold Limit Values (TLV)  
using local exhaust or mechanical ventilation. In  
confined spaces or in some circumstances, outdoors, a  
respirator may be required. Additional precautions are  
also required when welding on galvanized steel.  
3.c. In semiautomatic or automatic wire welding, the electrode,  
electrode reel, welding head, nozzle or semiautomatic  
welding gun are also electrically hot.  
3.d. Always be sure the work cable makes a good electrical  
connection with the metal being welded. The connection  
should be as close as possible to the area being welded.  
3.e. Ground the work or metal to be welded to a good electrical  
(earth) ground.  
5.b. Do not weld in locations near chlorinated hydrocarbon vapors  
coming from degreasing, cleaning or spraying operations.  
The heat and rays of the arc can react with solvent vapors to  
form phosgene, a highly toxic gas, and other irritating prod-  
ucts.  
3.f. Maintain the electrode holder, work clamp, welding cable and  
welding machine in good, safe operating condition. Replace  
damaged insulation.  
3.g. Never dip the electrode in water for cooling.  
5.c. Shielding gases used for arc welding can displace air and  
cause injury or death. Always use enough ventilation,  
especially in confined areas, to insure breathing air is safe.  
3.h. Never simultaneously touch electrically hotparts of  
electrode holders connected to two welders because voltage  
between the two can be the total of the open circuit voltage  
of both welders.  
5.d. Read and understand the manufacturers instructions for this  
equipment and the consumables to be used, including the  
material safety data sheet (MSDS) and follow your  
employers safety practices. MSDS forms are available from  
your welding distributor or from the manufacturer.  
3.i. When working above floor level, use a safety belt to protect  
yourself from a fall should you get a shock.  
3.j. Also see Items 6.c. and 8.  
5.e. Also see item 1.b.  
Mar 95  
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SAFETY  
CYLINDER may explode  
if damaged.  
WELDING SPARKS can  
cause fire or explosion.  
6.a. Remove fire hazards from the welding area.  
If this is not possible, cover them to prevent  
7.a. Use only compressed gas cylinders  
containing the correct shielding gas for the  
the welding sparks from starting a fire.  
Remember that welding sparks and hot  
materials from welding can easily go through small cracks  
and openings to adjacent areas. Avoid welding near  
hydraulic lines. Have a fire extinguisher readily available.  
process used and properly operating  
regulators designed for the gas and  
pressure used. All hoses, fittings, etc. should be suitable for  
the application and maintained in good condition.  
7.b. Always keep cylinders in an upright position securely  
chained to an undercarriage or fixed support.  
6.b. Where compressed gases are to be used at the job site,  
special precautions should be used to prevent hazardous  
situations. Refer to Safety in Welding and Cutting(ANSI  
Standard Z49.1) and the operating information for the  
equipment being used.  
7.c. Cylinders should be located:  
Away from areas where they may be struck or subjected to  
physical damage.  
6.c. When not welding, make certain no part of the electrode  
circuit is touching the work or ground. Accidental contact  
can cause overheating and create a fire hazard.  
A safe distance from arc welding or cutting operations and  
any other source of heat, sparks, or flame.  
7.d. Never allow the electrode, electrode holder or any other  
6.d. Do not heat, cut or weld tanks, drums or containers until the  
proper steps have been taken to insure that such procedures  
will not cause flammable or toxic vapors from substances  
inside. They can cause an explosion even though they have  
been cleaned. For information, purchase Recommended  
Safe Practices for the Preparation for Welding and Cutting of  
Containers and Piping That Have Held Hazardous  
Substances, AWS F4.1 from the American Welding Society  
(see address above).  
electrically hotparts to touch a cylinder.  
7.e. Keep your head and face away from the cylinder valve outlet  
when opening the cylinder valve.  
7.f. Valve protection caps should always be in place and hand  
tight except when the cylinder is in use or connected for  
use.  
7.g. Read and follow the instructions on compressed gas  
cylinders, associated equipment, and CGA publication P-l,  
Precautions for Safe Handling of Compressed Gases in  
Cylinders,available from the Compressed Gas Association  
1235 Jefferson Davis Highway, Arlington, VA 22202.  
6.e. Vent hollow castings or containers before heating, cutting or  
welding. They may explode.  
6.f. Sparks and spatter are thrown from the welding arc. Wear oil  
free protective garments such as leather gloves, heavy shirt,  
cuffless trousers, high shoes and a cap over your hair. Wear  
ear plugs when welding out of position or in confined places.  
Always wear safety glasses with side shields when in a  
welding area.  
FOR ELECTRICALLY  
powered equipment.  
6.g. Connect the work cable to the work as close to the welding  
area as practical. Work cables connected to the building  
framework or other locations away from the welding area  
increase the possibility of the welding current passing  
through lifting chains, crane cables or other alternate cir-  
cuits. This can create fire hazards or overheat lifting chains  
or cables until they fail.  
8.a. Turn off input power using the disconnect  
switch at the fuse box before working on  
the equipment.  
8.b. Install equipment in accordance with the U.S. National  
Electrical Code, all local codes and the manufacturers  
recommendations.  
6.h. Also see item 1.c.  
8.c. Ground the equipment in accordance with the U.S. National  
Electrical Code and the manufacturers recommendations.  
Mar 95  
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iv  
SAFETY  
zones où lon pique le laitier.  
PRÉCAUTIONS DE SÛRETÉ  
Pour votre propre protection lire et observer toutes les instructions  
et les précautions de sûreté specifiques qui parraissent dans ce  
manuel aussi bien que les précautions de sûreté générales suiv-  
antes:  
6. Eloigner les matériaux inflammables ou les recouvrir afin de  
prévenir tout risque dincendie dû aux étincelles.  
7. Quand on ne soude pas, poser la pince à une endroit isolé de  
la masse. Un court-circuit accidental peut provoquer un  
échauffement et un risque dincendie.  
Sûreté Pour Soudage A LArc  
1. Protegez-vous contre la secousse électrique:  
8. Sassurer que la masse est connectée le plus prés possible  
de la zone de travail quil est pratique de le faire. Si on place  
la masse sur la charpente de la construction ou dautres  
endroits éloignés de la zone de travail, on augmente le risque  
de voir passer le courant de soudage par les chaines de lev-  
age, câbles de grue, ou autres circuits. Cela peut provoquer  
des risques dincendie ou dechauffement des chaines et des  
câbles jusqu’à ce quils se rompent.  
a. Les circuits à l’électrode et à la piéce sont sous tension  
quand la machine à souder est en marche. Eviter toujours  
tout contact entre les parties sous tension et la peau nue  
ou les vétements mouillés. Porter des gants secs et sans  
trous pour isoler les mains.  
b. Faire trés attention de bien sisoler de la masse quand on  
soude dans des endroits humides, ou sur un plancher  
metallique ou des grilles metalliques, principalement dans  
les positions assis ou couché pour lesquelles une grande  
partie du corps peut être en contact avec la masse.  
c. Maintenir le porte-électrode, la pince de masse, le câble  
de soudage et la machine à souder en bon et sûr état  
defonctionnement.  
9. Assurer une ventilation suffisante dans la zone de soudage.  
Ceci est particuliérement important pour le soudage de tôles  
galvanisées plombées, ou cadmiées ou tout autre métal qui  
produit des fumeés toxiques.  
10. Ne pas souder en présence de vapeurs de chlore provenant  
dopérations de dégraissage, nettoyage ou pistolage. La  
chaleur ou les rayons de larc peuvent réagir avec les vapeurs  
du solvant pour produire du phosgéne (gas fortement toxique)  
ou autres produits irritants.  
d.Ne jamais plonger le porte-électrode dans leau pour le  
refroidir.  
e. Ne jamais toucher simultanément les parties sous tension  
des porte-électrodes connectés à deux machines à souder  
parce que la tension entre les deux pinces peut être le  
total de la tension à vide des deux machines.  
f. Si on utilise la machine à souder comme une source de  
courant pour soudage semi-automatique, ces precautions  
pour le porte-électrode sapplicuent aussi au pistolet de  
soudage.  
11. Pour obtenir de plus amples renseignements sur la sûreté,  
voir le code Code for safety in welding and cuttingCSA  
Standard W 117.2-1974.  
2. Dans le cas de travail au dessus du niveau du sol, se protéger  
contre les chutes dans le cas ou on recoit un choc. Ne jamais  
enrouler le câble-électrode autour de nimporte quelle partie  
du corps.  
PRÉCAUTIONS DE SÛRETÉ POUR  
LES MACHINES À SOUDER À  
TRANSFORMATEUR ET À  
REDRESSEUR  
3. Un coup darc peut être plus sévère quun coup de soliel,  
donc:  
a. Utiliser un bon masque avec un verre filtrant approprié  
ainsi quun verre blanc afin de se protéger les yeux du ray-  
onnement de larc et des projections quand on soude ou  
quand on regarde larc.  
b. Porter des vêtements convenables afin de protéger la  
peau de soudeur et des aides contre le rayonnement de  
larc.  
1. Relier à la terre le chassis du poste conformement au code de  
l’électricité et aux recommendations du fabricant. Le dispositif  
de montage ou la piece à souder doit être branché à une  
bonne mise à la terre.  
2. Autant que possible, Iinstallation et lentretien du poste seront  
c. Protéger lautre personnel travaillant à proximité au  
soudage à laide d’écrans appropriés et non-inflammables.  
effectués par un électricien qualifié.  
3. Avant de faires des travaux à linterieur de poste, la debranch-  
4. Des gouttes de laitier en fusion sont émises de larc de  
soudage. Se protéger avec des vêtements de protection libres  
de lhuile, tels que les gants en cuir, chemise épaisse, pan-  
talons sans revers, et chaussures montantes.  
er à linterrupteur à la boite de fusibles.  
4. Garder tous les couvercles et dispositifs de sûreté à leur  
place.  
5. Toujours porter des lunettes de sécurité dans la zone de  
soudage. Utiliser des lunettes avec écrans lateraux dans les  
Mar. 93  
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for selecting a QUALITY product by Lincoln Electric. We want you  
to take pride in operating this Lincoln Electric Company product  
••• as much pride as we have in bringing this product to you!  
Thank You  
Please Examine Carton and Equipment For Damage Immediately  
When this equipment is shipped, title passes to the purchaser upon receipt by the carrier. Consequently, Claims  
for material damaged in shipment must be made by the purchaser against the transportation company at the  
time the shipment is received.  
Please record your equipment identification information below for future reference. This information can be  
found on your machine nameplate.  
Model Name & Number _____________________________________  
Code & Serial Number _____________________________________  
Date of Purchase _____________________________________  
Whenever you request replacement parts for or information on this equipment always supply the information  
you have recorded above.  
Read this Operators Manual completely before attempting to use this equipment. Save this manual and keep it  
handy for quick reference. Pay particular attention to the safety instructions we have provided for your protection.  
The level of seriousness to be applied to each is explained below:  
WARNING  
This statement appears where the information must be followed exactly to avoid serious personal injury or  
loss of life.  
CAUTION  
This statement appears where the information must be followed to avoid minor personal injury or damage to  
this equipment.  
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vi  
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TABLE OF CONTENTS  
Page  
Installation .......................................................................................................Section A  
Technical Specifications ........................................................................................A-1  
Identify and Locate Components...........................................................................A-2  
Select Suitable Location ........................................................................................A-3  
Output Connections...............................................................................................A-3  
Work Clamp Installation ..................................................................................A-3  
Work Cable Installation ...................................................................................A-3  
Gun Installation......................................................................................................A-4  
Gas Connection.....................................................................................................A-4  
Input Connections..................................................................................................A-5  
Line Cord Connection............................................................................................A-6  
Operation .........................................................................................................Section B  
Safety Precautions ................................................................................................B-1  
General Description...............................................................................................B-2  
Design Features and Advantages .........................................................................B-2  
Welding Capability.................................................................................................B-2  
Limitations..............................................................................................................B-2  
Controls and Settings ............................................................................................B-2  
Welding Operations ...............................................................................................B-3  
Wire Loading...................................................................................................B-3  
Wire Threading................................................................................................B-4  
Making a Weld ................................................................................................B-5  
Process Guidelines................................................................................................B-5  
Chaning Over to Feed Other Wire Sizes ...............................................................B-6  
Welding with GMAW..............................................................................................B-6  
Welding with FCAW...............................................................................................B-6  
Overload Protection...............................................................................................B-6  
Learning to Weld....................................................................................................B-7  
Application Chart .................................................................................................B-18  
Accessories.....................................................................................................Section C  
Accessories ...........................................................................................................C-1  
Replacement Parts................................................................................................C-2  
Maintenance ....................................................................................................Section D  
Safety Precautions ................................................................................................D-1  
Routine Maintenance.............................................................................................D-1  
Gun and Cable Maintenance.................................................................................D-2  
Configuration of Components in Wire Feeding System.........................................D-2  
Component Replacement Procedures ..................................................................D-2  
Troubleshooting..............................................................................................Section E  
Safety Precautions.................................................................................................E-1  
How to Use Troubleshooting Guide.......................................................................E-1  
Troubleshooting Guide ..........................................................................................E-2  
Wiring Diagrams..............................................................................................Section F  
SP 170-I Wiring Diagram .......................................................................................F-1  
SP 170-I Parts...............................................................................................P297 Series  
UWW-170 Parts............................................................................................P298 Series  
Gun and Cable Assembly ...................................................................................P103-Y  
Wire Drive Assembly...........................................................................................P189-D  
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A-1  
A-1  
INSTALLATION  
TECHNICAL SPECIFICATIONS SP 170-I /UWW-170 (Above Code 10600)  
INPUT SINGLE PHASE ONLY  
Standard Voltage/Frequency  
Input Current  
230V/50/60Hz  
20 Amps Rated Output  
RATED OUTPUT  
Duty Cycle  
25%  
Amps  
125  
85  
Volts at Rated Amperes  
20.25  
18.25  
17.50  
60%  
100%  
70  
OUTPUT  
Welding Current Range  
Maximum Open Circuit Voltage  
Wire Speed Range  
Rated DC Output: 30 170 amps  
33  
50-400IPM (1.3-10.2m/min)  
RECOMMENDED INPUT CABLE AND FUSE SIZES  
Fuse or  
Output Mode  
Input Voltage  
Breaker Size  
Input Amps  
Power Cord  
RATED  
230V/50/60Hz  
30 Super Lag  
20  
16 Amp, 230V,  
Two-Prong International  
Cord Set (Supplied)  
TECHNICAL SPECIFICATIONS SP 170-I /UWW-170 (Below Code 10600)  
INPUT SINGLE PHASE ONLY  
Standard Voltage/Frequency  
Input Current  
220V/50/60Hz  
22 Amps Rated Output  
RATED OUTPUT  
Duty Cycle  
25%  
Amps  
120  
100  
75  
Volts at Rated Amperes  
20  
19  
18  
60%  
100%  
OUTPUT  
Welding Current Range  
Maximum Open Circuit Voltage  
Wire Speed Range  
Rated DC Output: 30 170 amps  
32  
50-400IPM (1.3-10.2m/min)  
RECOMMENDED INPUT CABLE AND FUSE SIZES  
Fuse or  
Output Mode  
Input Voltage  
Breaker Size  
Input Amps  
Power Cord  
RATED  
220V/50/60Hz  
30 Super Lag  
22/20  
16 Amp, 220V,  
Two-Prong International  
Cord Set (Supplied)  
PHYSICAL DIMENSIONS  
Height  
12.0 in  
305 mm  
Width  
9.75 in  
248 mm  
Depth  
16.5 in  
419 mm  
Weight  
57 Ibs  
25.9 kg  
The SP170-I / UWW-170 is designed for industrial and professional use  
in accordance with the standard EN 60974-1 / IEC 974-1.  
SP-170-I  
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A-2  
A-2  
INSTALLATION  
Read entire installation section before starting  
installation.  
1
2
SAFETY PRECAUTIONS  
E
WARNING  
ELECTRIC SHOCK can kill.  
Only qualified personnel should perform  
this installation.  
Only personnel that have read and under-  
stood the SP 170-I Operating Manual  
should install and operate this equipment.  
Machine must be plugged into a receptacle  
which is grounded per any national, local  
or other applicable electrical codes.  
4
The SP 170-I power switch is to be in the  
OFF (O) position when installing work  
cable and gun and when connecting power  
cord to input power.  
3
6
IDENTIFY AND LOCATE  
COMPONENTS  
5
If you have not already done so, unpack the SP 170-I  
from its carton and remove all packing material  
around the SP 170-I. Remove the following loose  
items from the carton (see Figure A.1):  
7
FIGURE A.1  
1. SP 170-I or UWW-170  
2. Gun and cable assembly(1)  
3. Literature and miscellaneous including:  
a) This operating manual  
b) Contact tips:  
SP 170-I UWW-170  
2
1
2
0
0
2
0
2
.025(0.6mm) for solid wire  
.030(0.8mm) for solid wire  
.035(0.9mm) for cored wire  
.045(1.2mm) for cored or solid wire  
c) 5/64(2.0 mm) Hex key wrench for removal of  
drive roll.  
4. 10 ft (3,0 m) work cable.  
5. Work clamp.  
6. 14.0 ft (4.3 m) .19(4.8 mm) dia. gas hose  
7. 2- Hose clamps  
(1) The gun is ready to feed .030" (0.8mm) diameter  
wire.  
SP 170-I  
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A-3  
A-3  
INSTALLATION  
3. Connector Block.  
SELECT SUITABLE LOCATION  
4. Gun Trigger Lead Connectors.  
5. Positive (+) and negative () output terminals.  
6. Wire Feed Gearbox / Feedplate  
7. Cable Hanger.  
The SP 170-I has an IP21S rating. Locate the welder  
in a dry location where there is free circulation of clean  
air into the louvers in the back and out the front of the  
unit. A location that minimizes the amount of smoke  
and dirt drawn into the rear louvers reduces the  
chance of dirt accumulation that can block air pas-  
sages and cause overheating.  
8. Thumbscrew.  
STACKING  
9. Circuit Breaker - (Manual Reset)  
SP 170-Is cannot be stacked.  
TILTING  
10. Optional Spot/Stitch Timer Kit - See Accessories”  
Refer to the Accessories Section for available optional  
equipment.  
Each machine must be placed on a secure, level sur-  
face, either directly or on the recommended cart. The  
machine may topple over if this procedure is not fol-  
lowed.  
Work Clamp Installation  
Attach the work clamp per the following: Refer to  
Figure A-3  
LIMITATIONS  
STRAIN RELIEF HOLE  
WORK CABLE  
NUT AND BOLT  
The SP 170-I cannot be used for pipe thawing.  
MIG welding and flux cored arc welding are the only  
processes supported by the SP 170-I  
WORK CLAMP  
The handle can not be used for transport by crane.  
FIGURE A.3  
OUTPUT CONNECTIONS  
Refer to Figure A.2.  
1. Insert the work cable terminal lug with the larger  
hole through the strain relief hole in the work clamp  
as shown above.  
1. Work Cable Access Hole.  
2. Gun Cable and Control Lead Access Hole.  
2. Fasten securely with the bolt and nut provided.  
9
10  
E
4
5
+
-
8
SP 170 - I  
6
3
7
1
2
FIGURE A.2  
SP 170-I  
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A-4  
A-4  
INSTALLATION  
Work Cable Installation  
Connecting Gun Cable to the SP 170-I  
Refer to Figure A.2.  
As shipped the gun is fitted with a liner suitable for all  
wire diameters from .025- .045(0.6mm - 1.2mm)  
and has an .030(0.8mm) contact tip installed.  
1. Open the wire feed section door on the right side of  
the SP 170-I.  
1. Refer to Figures A.2 and A.4. Unplug the machine  
2. Pass the end of the work cable that has the termi-  
nal lug with the smaller hole through the Work  
Cable Access Hole (1) in the case front.  
or turn power switch to the OFF Oposition.  
2. Pass the insulated terminals of the gun trigger con-  
trol leads, one at a time, through the Gun Cable  
and Control Lead Access Slot (A.2-2) in the case  
front. The leads are to be routed up the inside of  
the case front, behind the gas line.  
3. Route the cable under the feedplate (6) and in front  
of the Wire Feed Motor.  
4. For GMAW Only: Refer to Figure A.2. As deliv-  
ered, the machine is connected for positive elec-  
trode polarity. This is the appropriate configuration  
for the GMAW (MIG) process. To complete installa-  
tion, use the provided wing nut to connect the work  
cables terminal lug to the negative () output ter-  
minal (5) located above the Wire Feed Gearbox  
(6). Make sure that both wing nuts are tight.  
3. Insert the connector on the gun conductor cable  
through the Gun Cable Access Hole (A.2-2) in the  
SP 170-I case front. Make sure the connector is all  
the way in the brass connector block to obtain  
proper gas flow. If the gun connector will not fully  
insert, unscrew the thumbscrew on the connector  
block a few turns. Rotate the connector so control  
leads are on the underside and tighten the  
Thumbscrew on the connector block.  
5. For Innershield Only: Refer to Figure A.4. To wire  
for negative polarity (required for the Innershield  
process), connect the short cable attached to the  
connector block (1) to the negative () output termi-  
nal (2) and the work cable (3) to the positive (+) ter-  
minal (4).  
4. Connect the gun trigger control lead terminals to  
the two insulated 1/4" (6,4 mm) tab terminal con-  
nector bushings located above the Gun Trigger  
Connectiondecal in the wire feed section (A.4).  
Either lead can go to either connector.  
CAUTION  
4
If the gun trigger switch being used is other than  
that supplied, the switch must be a normally open,  
momentary switch. The terminals of the switch  
must be insulated from the welding circuit.  
Malfunction of the SP 170-I may result if this  
switch shorts to the SP 170-I welding output cir-  
cuit or is common to any electrical circuit other  
than the SP 170-I trigger circuit.  
3
2
1
5
GAS CONNECTION  
6
When using the MIG process, a cylinder of shielding  
gas must be obtained. See Table B.1. Additionally a  
flow regulator is required. For more information, refer  
to the ACCESSORIES section.  
FIGURE A.4  
GUN INSTALLATION  
As shipped from the factory, the SP 170-I gun is ready  
to feed .030" solid wire. If other wire is to be used,  
change the contact tip to the appropriate size.  
SP 170-I  
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A-5  
A-5  
INSTALLATION  
let and open the cylinder valve very slightly for an  
instant. This blows away any dust or dirt which may  
have accumulated in the valve outlet.  
WARNING  
CYLINDER may explode if dam-  
aged. Keep cylinder upright and  
chained to support  
WARNING  
Keep cylinder away from areas  
where it may be damaged.  
BE SURE TO KEEP YOUR FACE AWAY FROM THE  
VALVE OUTLET WHEN CRACKINGTHE VALVE.  
Never stand directly in front of or behind the flow  
regulator when opening the cylinder valve. Always  
stand to one side.  
Never lift welder with cylinder  
attached.  
Never allow welding electrode to  
touch cylinder.  
Keep cylinder away from welding  
or other live electrical circuits.  
3. Attach the flow regulator to the cylinder valve and  
tighten the union nut securely with a wrench..  
NOTE: If connecting to 100% CO2 cylinder, make  
certain the plastic washer is seated in the fitting  
that attaches to the CO2 cylinder.  
WARNING  
BUILDUP OF SHIELDING GAS may  
harm health or kill.  
4. Refer to Figure A.6. Attach one end of inlet gas  
hose to the outlet fitting of the flow regulator and  
tighten the gas line hose clamp. Connect the other  
end to the SP 170-I Gas Solenoid Inlet nipple.  
Make certain the gas hose is not kinked or twisted.  
Tighten the gas line hose clamp.  
Shut off shielding gas supply  
when not in use.  
SEE AMERICAN NATIONAL  
STANDARD Z-49.1, SAFETY IN  
WELDING AND CUTTINGPUB-  
LISHED BY THE AMERICAN  
WELDING SOCIETY.  
INPUT CONNECTIONS  
Refer to Figure A.6.  
1. Chain the cylinder to a wall or other stationary sup-  
port to prevent the cylinder from falling over.  
Insulate the cylinder from the work circuit and earth  
ground. Refer to Figure A.5.  
Cylinder Valve  
Flow Regulator  
GAS SOLENOID  
INLET NIPPLE  
Gas Hose  
POWER INPUT  
CABLE  
FIGURE A.6  
FIGURE A.5  
2. With the cylinder securely installed, remove the  
cylinder cap. Stand to one side away from the out-  
SP 170-I  
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A-6  
A-6  
INSTALLATION  
Line Cord Connection  
A 3 conductor international cordset with a 16 amp,  
230 volt, two-prong plug is factory installed. Connect  
this plug to a mating grounded receptacle which is  
connected to an appropriate power supply per any  
applicable local codes.  
Grounding  
Type 75°C  
Wire in Conduit,  
Copper Cond.  
AWG Size  
Wire  
Copper  
Cond.  
Fuse  
Size  
(Super  
Lag)  
Input  
Voltage  
Hertz  
AWG Size  
230  
50/60  
8
10  
40  
CONNECT TO A SYSTEM  
GROUNDING WIRE. SEE  
THE UNITED STATES  
NATIONAL ELECTRICAL  
CODE AND/OR LOCAL  
CODES FOR OTHER  
DETAILS AND MEANS FOR  
PROPER GROUNDING.  
CONNECT TO HOT WIRES  
OF A THREE-WIRE SINGLE  
PHASE SYSTEM OR TO  
ONE PHASE OF A TWO OR  
THREE PHASE SYSTEM.  
WARNING  
This welding machine must be connected to a  
power source in accordance with applicable elec-  
trical codes.  
The United States National Electrical Code (Article  
630-B, 1990 Edition) provides standards for  
amperage handling capability of supply conduc-  
tors based on duty cycle of the welding source.  
If there is any question about the installation  
meeting applicable electrical code requirements,  
consult a qualified electrician.  
SP 170-I  
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B-1  
B-1  
OPERATION  
GENERAL DESCRIPTION  
Read entire operation section before  
operating the SP 170-I.  
The SP 170-I is a complete semiautomatic constant  
voltage DC portable arc welder. Included is a tap-  
switch controlled, single phase constant voltage trans-  
former/rectifier power source and a wire feeder with  
welding gun for feeding .025" (0.6 mm) through .030"  
(0.8 mm) solid steel electrode and .035" (0.9 mm)  
Innershield® NR-211-MP.  
WARNING  
ELECTRIC SHOCK can kill.  
Do not touch electrically live  
parts or electrode with skin or  
wet clothing. Insulate yourself  
from work and ground.  
It is ideally suited for individuals having access to  
230V 50/60 Hz AC input power and want the ease of  
use, quality and dependability of both gas metal arc  
welding or GMAW (also known as MIG welding) and  
the Innershield® process (self-shielded flux-cored or  
FCAW). A convenient chart is mounted inside the wire  
feed section door for setting welding procedures for 24  
gauge (.60 mm) through 5/16" (8.0 mm) mild steel.  
The machine is rugged and reliable and is designed  
for dependable service and long life.  
Always wear dry insulating  
gloves.  
FUMES AND GASES can be  
dangerous.  
Keep your head out of fumes.  
Use ventilation or exhaust to  
remove fumes from breathing  
zone.  
RECOMMENDED PROCESSES  
The SP 170-I can be used for welding mild steel,  
stainless steels and aluminum using the GMAW, sin-  
gle pass, process (MIG) which requires a supply of  
shielding gas or it can be used for the self-shielded,  
Innershield® process (FCAW).  
WELDING SPARKS can  
cause fire or explosion.  
Keep flammable material away.  
Do not weld on closed contain-  
ers.  
OPERATIONAL FEATURES AND  
CONTROLS  
The SP 170-I has the following controls as standard:  
Power ON/OFF Switch, Voltage Control, Wire Speed  
Control, Trigger Switch, and a Circuit Breaker.  
ARC RAYS can burn eyes  
and skin.  
DESIGN FEATURES AND  
ADVANTAGES  
Wear eye, ear and body protec-  
tion.  
Cold electrodeuntil gun trigger is pressed for an  
added measure of safety.  
Overload protection incorporates both a thermo-  
stat and a circuit breaker.  
Observe all safety information throughout  
this manual.  
Quality wire drive with electronic overload protec-  
tion.  
Quick Releaseidle roll pressure arm is easily  
adjusted.  
Reversible, dual groove drive roll, shipped ready  
to feed .030" (0.8 mm) diameter solid wire or .035"  
diameter flux-cored wire. The drive roll is easily  
reversed to feed .025" (0.6 mm) diameter solid  
wire.  
SP-170-I  
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B-2  
B-2  
OPERATION  
6. Optional K695-1 Spot/ Stitch Timer Kit Controls (see  
ACCESSORIES section) - If present, replaces Blank  
Panel Assembly located on the center panel inside the  
case door:  
No external shielding gas is required when used  
with Lincoln Innershield .035(0,9 mm) NR®-211-  
MP electrode.  
Spindle accommodates both 8 in. (200 mm) diame-  
ter and 4 in. (100 mm) diameter spools of wire.  
Mode Switch - Selects between Spot, Stitch, or Seam  
(normal welding) mode. Spot mode welds for an  
adjustable length of time (set by Time Control; see  
below) and then stops, whenever the gun trigger is  
depressed and held. Stitch mode cycles between weld-  
ing and not welding for an adjustable length of time (also  
set by Time Control) while the gun trigger is depressed.  
In Seam mode the machine will weld continuously while  
the gun trigger is depressed. Releasing the gun trigger in  
any of the three modes will interrupt welding immediate-  
ly.  
Accepts optional Spot/Stitch Timer Kit.  
WELDING CAPABILITY  
The SP 170-I is rated at 125 amps, 20.25 volts, at  
25% duty cycle on a ten minute basis. It is capable of  
higher output currents at lower duty cycles. Actual  
welding outputs will range between 30 and 170 amps  
for the recommended processes.  
LIMITATIONS  
Time Control - In Spot mode, controls spot mode ON  
time between approximately .25 and 4.0 seconds. In  
Stitch mode, controls stitch mode ON time and OFF time  
simultaneously between .25 and 4.0 seconds each. This  
control is deactivated while in Seam mode.  
Arc Gouging cannot be performed with the SP 170-I.  
The SP 170-I is not recommended for pipe thawing or  
TIG welding.  
CONTROLS AND SETTINGS  
Refer to Figures B.1a,  
B.1b and B.1c.  
7. Gun Trigger - Activates welding output, wire feed, and  
gas solenoid operation. Releasing the trigger deactivates  
welding and simultaneously activates the burnback”  
function so that the welding wire does not stick in the  
weld puddle.  
1. Power ON/OFF Switch When  
the power is on the fan motor will  
ON  
run and air will be exhausted out  
2
3
4
1
the louvers in the front of the  
machine. The welding output and  
wire feeder remain off until the gun  
trigger is pressed.  
OFF  
2. Voltage Control A 5-position tap  
selector switch gives full range  
adjustment of power source output  
voltage. Do not switch while  
E
welding.  
ARC VOLTS  
SP 170 - I  
3. Wire Speed Control Controls the  
wire feed speed from 50 400  
in/min (1.3 10.2 m/min). The con-  
FIGURE B.1b  
WIRE SPEED  
trol can be preset on the dial to the  
5
setting specified on the SP 170-I  
Application Chart located on the  
inside of the wire feed section door.  
6
4. Temperature Light Indicates  
thermostat has cut the output. The  
fan will be running. Thermostat  
resets automatically.  
+
-
FIGURE B.1a  
5. Circuit Breaker Protects machine from damage if maxi-  
mum output is exceeded. Button will extend out when  
tripped (Manual reset).  
FIGURE B.1c  
SP 170-I  
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B-3  
B-3  
OPERATION  
FIGURE B.3  
WELDING OPERATIONS  
SEQUENCE OF OPERATION  
Wire Loading  
Refer to Figures B.2 and B.3.  
4" Wire Spool  
Wire Spindle Shaft  
The machine power switch should be turned to the  
OFF (O) position before working inside the wire feed  
enclosure.  
The welder is shipped from the factory ready to feed  
8" (200 mm) diameter spools with 2.2" (56 mm) maxi-  
mum width. These spools fit on a 2" (51 mm) diameter  
spindle that has a built in, adjustable friction brake to  
prevent overrun of the spool and excess slack in the  
wire.  
Note:When loading and removing the 8Spools make  
sure that the wing nut (inside the wire spool spindle  
hub) is turned 90° from the wire spool spindle locking  
tab. If the wing nut is positioned in line with the locking  
tab, the tab cannot be depressed to load or unload the  
wire spool.  
Wing Nut  
and Spacer  
To Wire Drive  
Friction Brake Adjustment  
With wire spool installed on the spindle shaft and the  
wing nut loose, turn the spool by hand while slowly  
tightening the wing nut until a light drag is felt. Tighten  
the wing nut an additional 1/4 turn.  
FIGURE B.2  
Note: When properly adjusted, the brake should pro-  
vide only enough drag to prevent overrun of the spool  
and excess slack in the wire. Too much drag may  
result in wire feeding problems, and may cause pre-  
mature wear of wire drive system components.  
Wire Spool Spindle  
8Wire Spool  
Be sure that this stud engages  
the hole in the wire spool.  
To Wire Drive  
Wire Spool must be pushed all the way on the spindle so that the  
spindles tab will hold it in place. The Wire Spool will rotate clock-  
wise when wire is dereeled.  
Load an 8(200 mm) diameter spool on the wire spool  
spindle shown in Figure B.2.  
To use 4(100 mm) diameter spools, the 2(50 mm)  
diameter spindle must be removed (See Figure B.3).  
Remove the wing nut and spacer at the end of the  
shaft and remove the outside plastic wire spool spin-  
dle. The spindle can be stored in the wire feed com-  
partment. A 4(100 mm) diameter spool is mounted  
directly on the 5/8(16 mm) diameter shaft and held in  
place with the previously removed hardware. Also  
make certain the start end of the wire, which may pro-  
trude through the side of the spool does not contact  
any metallic case parts.  
SP 170-I  
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B-4  
B-4  
OPERATION  
Refer to Figure B.4  
1. Release the Spring Loaded Pressure Arm (1)  
rotate the Idle Roll Arm (2) away from the Wire  
Feed Drive Roll (3). Ensure that the groove size  
in the feeding position on the drive roll match-  
es the wire size being used. This occurs when  
the desired groove is located on the inside, toward  
the feedplate. See Maintenance section for further  
information.  
2
1
2. Carefully detach the end of the wire from the  
spool. To prevent the spool from unwinding, main-  
tain tension on the wire until after step 5.  
4
5
3
The Wire Drive Feed Roll can  
accommodate two wire sizes by  
flipping the wire drive feed roll  
over.  
3. Cut the bent portion of wire off and straighten the  
first 4(100 mm).  
4. Thread the wire through the ingoing guide tube  
(4), over the drive roll (3), and into the outgoing  
guide tube (5). Check the alignment of the wire  
over the drive roll groove and adjust if necessary.  
If alignment adjustment is necessary use the allen  
wrench provided to loosen the drive roll, move it to  
the desired position and then retighten.  
FIGURE B.4  
7. Refer to Figure B.5. Remove gas nozzle and con-  
tact tip from end of gun.  
5. Close the idle roll arm (2) and latch the spring  
loaded pressure arm (1) in place. Rotate the spool  
counterclockwise if required to take up extra slack  
in the wire.  
Gun Handle  
Gas Diffuser  
Contact Tip  
6. The idle roll pressure adjustment wing nut is factory  
set to approximately five full turns from where the  
wing nut first engages the threads of the pressure  
arm (1). If feeding problems occur because the wire  
is flattened excessively, turn the pressure adjust-  
ment counter-clockwise to reduce distortion of the  
wire. Slightly less pressure may be required when  
using 0.023 0.025" (0,6 mm) wire. If the drive roll  
slips while feeding wire, the pressure should be  
increased until the wire feeds properly.  
Gas Nozzle  
FIGURE B.5  
8. Turn the SP 170-I ON (I).  
9. Straighten the gun cable assembly.  
10. Depress the gun trigger switch and feed welding  
wire through the gun and cable. (Point gun away  
from yourself and others while feeding wire.)  
Release gun trigger after wire appears at end of  
gun.  
WARNING  
When inching the welding wire, the drive rolls, the  
gun connector block and the gun contact tip are  
electrically energized relative to work and ground  
and remain energized for several seconds after  
the gun trigger is released.  
11. Turn the SP 170-I OFF (O).  
12. Replace contact tip and gas nozzle.  
13. Refer to Figure B-6. Cut the wire off 1/4” – 3/8(6  
10 mm) from the end of the tip. The SP 170-I is  
now ready to weld.  
SP 170-I  
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B-5  
B-5  
OPERATION  
Contact Tip  
GUN CABLE  
Wire Electrode  
3/8" 1/2" Electrical Stickout  
WORKPIECE  
ARC  
FIGURE B.6  
Making A Weld  
WORK CLAMP  
1. See Process Guidelinesin this section for selec-  
tion of welding wire and shielding gas and for  
range of metal thicknesses that can be welded.  
FIGURE B.7  
10. When no more welding is to be done, close valve  
on gas cylinder (if used), momentarily operate gun  
trigger to release gas pressure, and turn off the  
SP 170-I.  
2. See the Application chart on the inside of the wire  
feed compartment door for information on setting  
the SP 170-I controls. Refer to Table B.1 for alu-  
minum and stainless wire.  
Cleaning Tip And Nozzle  
Clean the contact tip and nozzle to avoid arc bridging  
between the nozzle and contact tip which can result in  
a shorted nozzle, poor welds and an overheated gun.  
Hint: Anti-stick spray or gel, available from a welding  
supply distributor, may reduce buildup and aid in spat-  
ter removal.  
3. Set the Voltage (V) and Wire Speed (olo’”) con-  
trols to the settings suggested for the welding wire  
and base metal thickness being used, refer to  
3. Applications chart on the inside of the wire drive  
compartment door.  
4. Check that the polarity is correct for the welding  
wire being used and that the gas supply, if  
required, is turned on.  
PROCESS GUIDELINES  
The SP 170-I can be used for welding mild steel,  
stainless steel and aluminum using the MIG process  
and also for welding mild steel with the gasless self-  
shielded, Innershield® process (FCAW).  
5. When using Innershield electrode, remove the gas  
nozzle and install a gasless nozzle (optional). This  
will improve visibility of the arc and protect the gas  
diffuser from weld spatter. Refer to the MAINTE-  
NANCE section for details on nozzle replacement.  
The recommended gases and electrodes for MIG  
(GMAW) are welding grade CO2 gas or an argon-CO2  
blended gas (75 to 80% argon and 25 to 20% CO2)  
and .025" (0.6 mm) and .030(0.8mm) diameter  
Lincoln L-56 mild-steel welding wire, supplied on 12-  
1/2 lb (5.7 kg) spools. The blended gas is recom-  
mended for welding on heavier steel, 14 gauge (2.0  
mm), for example.  
6. Refer to Figure B.7. Connect work clamp to metal  
to be welded. Work clamp must make good elec-  
trical contact to the workpiece. The workpiece  
must also be grounded as stated in Arc Welding  
Safety Precautionsin the beginning of this manu-  
al.  
7. Position gun over joint. End of wire may be lightly  
touching the work.  
The recommended electrode for the self-shielded  
process is Lincoln Innershield® NR-211-MP on 10 lb  
(4.5 kg) spools. This electrode is available as .035"  
(0.9 mm) and .045" (1.2 mm) NR-211-MP for all posi-  
tion welding of 18 gauge (1.2 mm) through 5/16" (8.0  
mm) steel. Thickness of 1/4" (6.4 mm) and 5/16" (7.9  
mm) require multiple passes. both wire sizes can also  
be used for the welding of galvanized coated sheet  
metal.  
8. Lower welding helmet, close gun trigger, and  
begin welding. Hold the gun so the contact tip to  
work distance is about 3/8 inch (10 mm).  
9. To stop welding, release the gun trigger and then  
pull the gun away from the work after the arc goes  
out.  
SP 170-I  
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B-6  
B-6  
OPERATION  
The SP 170-I is suitable for .035" (0.9 mm) aluminum  
wire and .023".035" (0.6 - 0.9 mm) stainless wire.  
Refer to Table B.1 for recommended procedure set-  
tings. (Requires K499 Argon regulator kit and K664-1  
Aluminum - Stainless Feeding Kit.)  
2. If using a regulator with an adjustable flow meter,  
close the gun trigger and adjust the flow to give 15  
20 cubic ft per hour (CFH) (7 10 I/min) [use 20  
25 CFH (10 12 I/min) when welding out of  
position or in a drafty location.  
3. Keep the cylinder valve closed, except when using  
the SP 170-I. When finished welding:  
CAUTION  
a) Close the cylinder valve to stop gas flow.  
It is important when changing between welding  
with steel wire and aluminum to exchange feeding  
components due to the lubricant applied to steel  
wire. Failure to do so may result in contaminated  
welds when welding aluminum.  
b) Depress the gun trigger briefly to release the  
pressure in the gas hose.  
c) Turn off the SP 170-I.  
------------------------------------------------------------------------  
TABLE B.1 SP 170-I  
WELDING PROCEDURES  
WELDING WITH FCAW (Innershield)  
Voltage/Wire Speed  
Shielding  
Process  
Welding Wire  
Gas  
1.6mm 2.0mm 2.5mm 3.5mm 5.0mm  
When using the FCAW process, the correct drive roll  
and electrode polarity must be used. See Work Cable  
Installation in INSTALLATION section for changing the  
polarity.  
MIG DC+ .035 Dia (0.9mm) 100% Argon A-5 B6.5 C-8  
D-8.5 E-10  
4043/5356  
Aluminum Wire  
MIG DC+ .023 Dia (0.6mm) 98% Argon/ A-4 B-6  
C-8  
308L Stainless  
Steel Wire  
2% Oxygen  
MIG DC+ .030 Dia (0.8mm) 98% Argon/ B-3.5 C-6.5 D-7  
E-8 E-9  
E-8 E-8  
Innershield welding kits K549-1 (for .035") and K549-2  
(for .045") are also available.  
308L Stainless  
Steel Wire  
2% Oxygen  
MIG DC+ .035 Dia (0.9mm) 98% Argon/ B-2.5 C-4  
D-6  
308L Stainless  
Steel Wire  
2% Oxygen  
OVERLOAD PROTECTION  
Output Overload  
CHANGING MACHINE OVER TO  
FEED OTHER WIRE SIZES  
The SP 170-I is equipped with a circuit breaker which  
protects the machine from damage if a severe over-  
load occurs. The circuit breaker button will extend out  
when tripped. The circuit breaker must be manually  
reset.  
The SP 170-I is shipped from the factory ready to feed  
0.030" (0.8 mm) diameter wire. To operate the SP  
170-I with other sizes of wire, it is necessary to  
change the contact tip and change the drive roll over  
to other sizes. Refer to Changing the Contact Tip and  
Changing the Drive Roll, in the MAINTENANCE sec-  
tion, for specific information on these procedures.  
Thermal Protection  
The SP 170-I has a rated output duty cycle of 20%. If  
the duty cycle is exceeded, a thermal protector will  
shut off the output until the machine cools to a reason-  
able operating temperature. This is an automatic func-  
tion of the SP 170-I and does not require user inter-  
vention. The fan continues to run during cooling.  
WELDING WITH GMAW (MIG)  
Shielding Gas  
Electronic Wire Drive Motor Protection  
The SP 170-I has built-in protection for wire drive  
motor overload.  
When using the GMAW process, obtain and install a  
gas regulator and hose kit K463 (for CO2) or a K499  
(Argon-mixed) gas regulator and hose kit.  
1. For CO2, open the cylinder very slowly. For argon-  
mixed gas, open cylinder valve slowly a fraction of  
a turn. When the cylinder pressure gauge pointer  
stops moving, open the valve fully.  
SP 170-I  
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B-7  
B-7  
LEARNING TO WELD  
LEARNING TO WELD  
WARNING  
No one can learn to weld simply by reading about it.  
Skill comes only with practice. The following pages will  
help the inexperienced operator to understand weld-  
ing and develop this skill. For more detailed informa-  
tion, order a copy of New Lessons in Arc Welding”  
listed at the end of this manual.  
Fumes and slag generated from  
Innershield type electrodes recom-  
mended for use with this welding  
machine can be toxic.  
Avoid contact with eyes and skin.  
Do not take internally.  
THE ARC-WELDING CIRCUIT  
Keep out of reach of children.  
The operators knowledge of arc welding must go  
beyond the arc itself. The operator must know how to  
control the arc, and this requires a knowledge of the  
welding circuit and the equipment that provides the  
electric current used in the arc. Figure B.7 illustrates  
the welding circuit for a typical welding machine. The  
circuit begins where the gun cable is attached to the  
welding machine. Current flows through the gun cable,  
gun, and contact tip, to the wire and across the arc.  
On the work side of the arc, current flows through the  
base metal to the work cable and back to the welding  
machine. This circuit must be complete for the current  
to flow.  
Follow all safety precautions  
found in this operating manual.  
The gun and cable assembly is held by the operator  
who guides the automatically fed wire along the joint,  
maintaining a contact tip to work distance of about 3/8  
to 1/2 inch (10 12 mm). This is called electrical stick-  
out. This electrical stickout (ESO) must be properly  
maintained by the operator. The electric arc is made in  
the gap between the work and the tip end of a small  
diameter wire. When the power source is properly set,  
the arc gap is maintained automatically.  
This machines welding circuit has a voltage output of  
33 volts DC maximum. This voltage is quite low and is  
only present when the gun triggers depressed.  
Arc welding is a manual skill requiring a steady hand,  
good physical condition, and good eyesight. The oper-  
ator controls the welding arc, and, therefore, the quali-  
ty of the weld made.  
To weld, the work clamp must be tightly connected to  
clean base metal. Remove paint, rust, dirt or oil as  
necessary and connect the work clamp as close as  
possible to the area you wish to weld. This helps pre-  
vent current from going through an unwanted path.  
Avoid allowing the welding circuit to pass through  
hinges, bearings, electronic components, or similar  
devices that can be damaged. See Figure B.8. Always  
disconnect electrical devices before welding upon  
them.  
THE SELF-SHIELDED FCAW WELDING  
ARC  
Figure B.9 illustrates the action taking place in the self  
shielded FCAW (Innershield) welding arc. It closely  
resembles what is actually seen while welding.  
Electronic Components  
Burning of core materials  
inside wire electrode  
results in shield of gas.  
Cored Wire  
Protective Slag  
Arc Stream  
Weld Metal  
FIGURE B.9  
Hinges  
Bearings  
FIGURE B.8  
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B-8  
LEARNING TO WELD  
The arc streamis seen in the middle of the picture.  
This is the electric arc created by the electric current  
flowing through the space between the end of the wire  
electrode and the base metal. The temperature of this  
arc is about 6000°F, which is more than enough to  
melt metal. The arc is very bright, as well as hot, and  
cannot be looked at with the naked eye without risking  
painful injury. The very dark lens, specifically  
designed for arc welding must be used with the hand  
or face shield whenever viewing the arc.  
THE GMAW (MIG) WELDING ARC  
Figure B.10 illustrates the GMAW (MIG) welding arc.  
Solid wire does not contain fluxes or ingredients to  
form its own shielding and no slag forms to protect the  
molten weld metal. For this reason, a continuous even  
flow of shielding gas is needed to protect the molten  
weld metal from atmospheric contaminants such as  
oxygen and nitrogen. Shielding gas is supplied  
through the gun and cable assembly, through the gas  
nozzle and into the welding zone.  
The arc melts the base metal and actually digs into it  
much as water through a nozzle on a garden hose  
digs into the earth. The molten metal forms a molten  
pool or crater and tends to flow away from the arc. As  
it moves away from the arc, it cools and solidifies.  
Gas nozzle  
The function of the Innershield cored wire electrode is  
much more than simply to carry current to the arc. The  
wire core is composed of fluxes and/or alloying ingre-  
dients around which a steel sheath has been formed.  
It is simply a stick electrode turned inside out in a con-  
tinuous wire form.  
Solid wire  
electrode  
Shielding gas  
Weld metal  
Base metal  
FIGURE B.10  
The cored wire melts in the arc and tiny droplets of  
molten metal shoot across the arc into the molten  
pool. The wire sheath provides additional filler metal  
for the joint to fill the groove or gap between the two  
pieces of base metal.  
When comparing the GMAW and FCAW processes,  
you can see that the principal difference between the  
two lies in the type of shielding used. GMAW uses gas  
for shielding, thus we have Gas Metal Arc Welding.  
FCAW uses the melting or burning of the core ingredi-  
ents for shielding, and is thus termed Self-Shielded  
Flux Cored Arc Welding.  
The core materials also melt or burn in the arc and  
perform several functions. They make the arc stead-  
ier, provide a shield of smoke-like gas around the arc  
to keep oxygen and nitrogen in the air away from the  
molten metal, and provide a flux for the molten pool.  
The flux picks up impurities and forms the protective  
slag on top of the weld during cooling.  
The recommended wire for Gas Metal Arc Welding  
(MIG) is Lincolnweld 0.025(0.6 mm) L-56 electrode.  
LincolnweldL-56 is capable of welding a wide range  
of mild steels in all positions, however, more skill is  
required for out-of-position welding with the GMAW  
process.  
After running a weld bead, the slag may be removed  
with a chipping hammer and wire brush. This  
improves appearance and allows for inspection of the  
finished weld.  
Since machine size and output characteristics limit the  
size and type of wire electrode which can be used,  
Lincoln 0.035" and 0.045" (0.9 and 1.2 mm) NR-211-  
MP Innershield electrode is recommended for Self-  
Shielded Flux Cored Arc Welding with this machine.  
PROCESS SELECTION  
By gaining knowledge of the differences between the  
two processes, you will be able to select the best  
process for the job you have at hand. In selecting a  
process, you should consider:  
For GMAW (MIG) Process  
1. Is most of my welding performed on 16 gauge and  
lighter materials?  
SP 170-I  
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B-9  
B-9  
LEARNING TO WELD  
2. Can I afford the extra expense, space, and lack of  
portability required for gas cylinders and gas sup-  
ply?  
JOINT TYPES AND POSITIONS  
Five types of welding joints are: Butt Welds, Fillet  
Welds, Lap Welds, Edge Welds and Corner Welds.  
See Figure B.11.  
3. Do I require clean, finished-looking welds?  
If you have answered yes to all the above questions  
GMAW may be the process for you. If you have  
answered no to any of the above questions, then you  
should consider using the FCAW process.  
Of these, the Butt Weld and Fillet Weld are the two  
most common welds.  
For FCAW (Innershield) Process  
1. Do I want simplicity and portability?  
Butt weld  
Lap weld  
2. Will welding be performed outdoors or under windy  
conditions?  
3. Do I require good all position welding capability?  
4. Will most welding be performed on 16 gauge and  
heavier, somewhat rusty or dirty materials?  
Edge weld  
Fillet weld  
Corner weld  
5. Weld must be cleaned prior to painting.  
FIGURE B.11  
COMMON METALS  
Butt Welds  
Most metals found around the farm, small shop or  
home are low carbon steel, sometimes referred to as  
mild steel. Typical items made with this type of steel  
include most sheet metal, plate, pipe and rolled  
shapes such as channels and angle irons. This type of  
steel can usually be easily welded without special pre-  
cautions. Some steels, however, contain higher car-  
bon levels or other alloys and are more difficult to  
weld. Basically, if a magnet sticks to the metal and  
you can easily cut the metal with a file, chances are  
good that the metal is mild steel and that you will be  
able to weld the material. In addition, aluminum and  
stainless steel can be welded using the K664-1  
Aluminum Welding Kit. For further information on  
identifying various types of steels and other metals,  
and for proper procedures for welding them, we again  
suggest you purchase a copy of New Lessons in Arc  
Welding.  
Place two plates side by side, leaving a space approx-  
imately one half the thickness of the metal between  
them in order to get deeper penetration.  
Securely clamp or tack weld the plates at both ends,  
otherwise the heat will cause the plates to move apart.  
See Figure B.12.  
Now weld the two plates together. Weld from left to  
right (if right handed). Point the wire electrode down in  
the crack between the two plates, keeping the gun  
slightly tilted in the direction of travel. Watch the  
molten metal to be sure it distributes itself evenly on  
both edges and in between the plates. This is refered  
to as the pull technique. On thin gauge sheet metal,  
use the push technique. See Welding Techniques  
for GMAW (MIG) Process.  
Regardless of the type of metal being welded, in order  
to get a quality weld, it is important that the metal is  
free of oil, paint, rust or other contaminants.  
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B-10  
LEARNING TO WELD  
45°  
FIGURE B.12  
FIGURE B.15  
Penetration  
Welding In The Vertical Position  
Unless a weld penetrates close to 100% of the metal  
thickness, a butt weld will be weaker than the material  
welded together. In the example shown in Figure  
B.13, the total weld is only half the thickness of the  
material thus the weld is only approximately half as  
strong as the metal.  
Welding in the vertical position can be done either ver-  
tical-up or vertical-down. Vertical-up is used whenever  
a larger, stronger weld is desired. Vertical-down is  
used primarily on sheet metal 5/32(3.9 mm) and  
under for fast, low penetrating welds.  
WARNING  
Use of this unit on thicker materials than recom-  
mended may result in poor welds. The welds may  
lookgood, but may just be sittingon top, of  
the plate. This is called Cold Castingand will  
result in weld failure.  
FIGURE B.13  
Vertical-up And Overhead Welding  
The problem, when welding vertical-up, is to put the  
molten metal where it is wanted and make it stay  
there. If too much molten metal is deposited, gravity  
will pull it downwards and make it drip. Therefore, a  
certain technique has to be followed.  
When welding out-of-position, run stringer beads.  
Dont whip, break the arc, move out of the puddle, or  
move too fast in any direction. Use Wire Feed Speed  
(WFS) in the low portion of the range. The general  
technique and proper gun angle is illustrated in Figure  
B.16.  
FIGURE B.14  
In the example shown in Figure B.14, the joint has  
been welded so that 100% penetration could be  
achieved. The weld, if properly made, is as strong as  
or stronger than the original metal.  
Generally, keep the electrode nearly perpendicular to  
the joint as illustrated. The maximum angle above per-  
pendicular may be required if porosity becomes a  
problem.  
Fillet Welds  
When welding fillet welds, it is very important to hold  
the wire electrode at a 45° angle between the two  
sides or the metal will not distribute itself evenly. The  
gun nozzle is generally formed at an angle to facilitate  
this. See Figure B.15.  
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B-11  
B-11  
LEARNING TO WELD  
MACHINE SET UP FOR THE  
SELF-SHIELDED FCAW PROCESS  
1. See PROCESS GUIDELINES in the OPERATION  
section for selection of welding wire and shielding  
gas, and for range of metal thicknesses that can be  
welded.  
2. See the Application Guide on the inside of wire  
feed section door for information on setting the  
controls.  
PROPER GUN ANGLE  
PROPER GUN ANGLE  
FOR GMAW PROCESS  
FOR FCAW PROCESS  
WELDING IN THE VERTICAL UP POSITION  
WELDING IN THE VERTICAL UP POSITION  
3. Set the Voltageand Wire Speedcontrols to the  
settings suggested on the Application Guide for the  
welding wire and base metal thickness being used.  
The voltage control is marked Vand the wire feed  
speed is marked ‘’olo.’’  
FIGURE B.16  
Vertical-down Welding  
Refer to Figure B.17 Vertical-down welds are applied  
at a fast pace. These welds are therefore shallow and  
narrow and, as such, are excellent for sheet metal.  
Vertical-down welds may be applied to 5/32(3.9 mm)  
and lighter material.  
4. Check that the polarity is correct for the welding  
wire being used. Set the polarity for DC() when  
welding with NR-211-MP Innershield electrode.  
See Work Cable Installation in the INSTALLATION  
section for instructions on changing polarity.  
Use stringer beads and tip the gun in the direction of  
travel so the arc force helps hold the molten metal in  
the joint. Move as fast as possible consistent with  
desired bead shape.  
5. When using Innershield electrode, the gasless noz-  
zle may be used instead of a gas nozzle to improve  
visibility of the arc.  
The important thing is to continue lowering the entire  
arm as the weld is made so the angle of the gun does  
not change. Move the electrode wire fast enough that  
the slag does not catch up with the arc. Vertical-down  
welding gives thin, shallow welds. It should not be  
used on heavy material where large welds are  
required.  
6. Connect work clamp to metal to be welded. Work  
clamp must make good electrical contact to the  
work piece. The work piece must also be grounded  
as stated in the Arc Welding Safety Precautions”  
at the beginning of this manual.  
WELDING TECHNIQUES FOR THE SELF-  
SHIELDED FCAW PROCESS  
Four simple manipulations are of prime importance  
when welding. With complete mastery of the four,  
welding will be easy. They are as follows:  
1. The Correct Welding Position  
Figure B.11 illustrates the correct welding position  
for right handed people. (For left handed people, it  
is the opposite.)  
Hold the gun (of the gun and cable assembly) in  
your right hand and hold the shield with your left  
hand. (Left handers simply do the opposite.)  
FIGURE B.17  
When using the FCAW Process, weld from left to  
right (if you are right handed). This enables you to  
clearly see what you are doing. (Left handers do  
the opposite.) Tilt the gun toward the direction of  
travel holding the electrode at an angle as shown  
in Figure B.18.  
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B-12  
B-12  
LEARNING TO WELD  
Contact Tip  
Wire Electrode  
FIGURE B.18  
3/8 1/2(10 12 mm)  
Electrical Stickout (ESO)  
WARNING  
FIGURE B.19  
ARC RAYS can burn eyes and skin.  
The easiest way to tell whether the ESO is the cor-  
rect length is by listening to its sound. The correct  
ESO has a distinctive cracklingsound, very much  
like eggs frying in a pan. A long ESO has a hollow,  
blowing or hissing sound. If the ESO is too short,  
you may stick the contact tip or nozzle to the weld  
puddle and/or fuse the wire to the contact tip.  
When using an open arc process, it  
Is necessary to use correct eye,  
head and body protection.  
Protect yourself and others, read  
ARC RAYS can burnat the front  
of this manual.  
4. The Correct Welding Speed  
2. The Correct Way To Strike An Arc  
1. Be sure the work clamp makes good electrical  
contact to the work.  
The important thing to watch while welding is the  
puddle of molten metal right behind the arc. See  
Figure B.20. Do not watch the arc itself. It is the  
appearance of the puddle and the ridge where the  
molten puddle solidifies that indicates correct weld-  
ing speed. The ridge should be approximately 3/8”  
(10 mm) behind the wire electrode.  
2. Position gun over joint. End of wire may be  
lightly touching the work.  
3. Position face shield to protect face and eyes,  
close gun trigger, and begin welding. Hold the  
gun so that the contact tip to work distance is  
about 3/8 to 1/2 inch (10 12 mm).  
Most beginners tend to weld too fast, resulting in a  
thin uneven, wormylooking bead. They are not  
watching the molten metal.  
4. To stop welding, release the gun trigger and  
the pull the gun away from the work after the  
arc goes out.  
5. A ball may form at the tip end of the wire after  
welding. For easier restrikes (with Innershield  
wire) the ball may be removed by feeding out a  
few inches of wire and simply bending the wire  
back and forth until it breaks off.  
Solidifying ridge  
Molten puddle  
6. When no more welding is to be done, turn off  
the machine.  
3. The Correct Electrical Stickout (ESO)  
The electrical stickout (ESO) is the distance from  
the end of the contact tip to the end of the wire.  
FIGURE B.20  
See Figure B.19.  
Once the arc has been established, maintaining  
the correct ESO becomes extremely important.  
The ESO should be approximately 3/8 to 1/2 inch  
(10 to 12 mm) long.  
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B-13  
B-13  
LEARNING TO WELD  
Helpful Hints  
For the SP 170-I, use the following:  
Mild Steel  
Electrode  
16 gauge or 1/16 inch  
1. For general welding, it is not necessary to weave  
the arc, neither forward or backward nor sideways.  
Weld along at a steady pace. You will find it easier.  
(1.6 mm)  
0.035" (0.9 mm)  
NR-211-MP  
2. When welding on thin plate, you will find that you  
will have to increase the welding speed, whereas  
when welding on heavy plate, it is necessary to go  
more slowly in order to get good penetration.  
Innershield Wire  
Voltage Setting V”  
A
Wire Feed Speed o|o”  
1.5  
3. When welding sheet metal 16 gauge (1.5 mm) and  
lighter, heat buildup may cause part warpage and  
burn through. One way to eliminate these problems  
is to use the back-stepping method illustrated in  
Figure B.21.  
Refer to Figure B.22.  
1. Learn to strike an arc by positioning the gun over  
the joint and touching the wire to the work.  
2. Position face shield to protect face and eyes.  
First weld from A to B; then from C to A; then  
from D to C; then from E to D, and so on.  
3. Depress gun trigger, hold gun so contact tip to  
work distance is about 3/8 to 1/2 inch (10 to 12  
mm) and the gun is at proper angle.  
B
A
C
D
E
4. After you strike the arc, practice the correct electri-  
cal stickout. Learn to distinguish it by its sound.  
Back-Stepping  
FIGURE B.21  
5. When you are sure that you can hold the correct  
electrical stickout, with a smooth cracklingarc  
start moving. Look at the molten puddle constantly,  
and look at the ridgewhere the metal solidifies.  
Practice  
The best way of getting practice in the four skills that  
enable you to maintain:  
6. Run beads on a flat plate. Run them parallel to the  
top edge (the edge farthest away from you). This  
gives you practice in running straight welds, and  
also gives you an easy way to check your  
progress. The 10th weld will look considerably bet-  
ter than the first weld. By constantly checking on  
your mistakes and your progress, welding will soon  
be a matter of routine.  
1. Correct welding position  
2. Correct way to strike an arc  
3. Correct electrical stickout  
4. Correct welding speed  
is to perform the following exercise.  
Contact  
Tip  
ESO  
Gun Angle  
FIGURE B.22  
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B-14  
B-14  
LEARNING TO WELD  
MACHINE SET UP FOR THE GMAW (MIG)  
PROCESS  
1. See PROCESS GUIDELINES in the OPERATION  
section for selection of welding wire and shielding  
gas, and for range of metal thicknesses that can be  
welded.  
2. See the Application Guide on the inside of wire  
feed section door for information on setting the  
controls.  
FIGURE B.23  
When using the GMAW process on light gauge mater-  
ial, weld from right to left (if you are right handed).  
This results in a colder weld and has less tendency for  
burn through.  
3. Set the Voltageand Wire Speedcontrols to the  
settings suggested on the Application Guide for the  
welding wire and base metal thickness being used.  
The voltage control is marked Vand the wire feed  
speed is marked ‘’olo.’’  
2. The Correct Way To Strike An Arc  
WARNING  
4. Check that the polarity is correct for the welding  
wire being used. Set the polarity for DC(+) when  
welding with the GMAW (MIG) process. See Work  
Cable Installation in the INSTALLATION section for  
instructions for changing polarity.  
ARC RAYS can burn eyes and skin.  
When using an open arc process, it  
Is necessary to use correct eye,  
head and body protection.  
5. Check that the gas nozzle and proper size liner  
and contact tip are being used and that the gas  
supply is turned on. If adjustable, set for 15 to 20  
cubic feet per hour (7 to 10 l/min.) under normal  
conditions, increase to as high as 35 CFH (17  
I/min.) under drafty (slightly windy) conditions.  
Protect yourself and others, read  
ARC RAYS can burnat the front  
of this manual.  
1. Be sure the work clamp makes good electrical con-  
tact to the work.  
6. Connect work clamp to metal to be welded. Work  
clamp must make good electrical contact to the  
work piece. The work piece must also be grounded  
as stated in the Arc Welding Safety Precautions”  
at the beginning of this manual.  
2. Position gun over joint. End of wire may be lightly  
touching the work.  
3. Position face shield to protect face and eyes, close  
gun trigger, and begin welding. Hold the gun so  
that the contact tip to work distance is about 3/8 to  
1/2 inch (10 12 mm).  
WELDING TECHNIQUES FOR THE GMAW  
(MIG) PROCESS  
Four simple manipulations are of prime importance  
when welding. With complete mastery of the four,  
welding will be easy. They are as follows:  
4. To stop welding, release the gun trigger and pull  
the gun away from the work after the arc goes out.  
5. A ball may form at the tip end of the wire after  
welding. For easier restrikes, the ball may be  
removed by feeding out a few inches of wire and  
cutting off the end of the wire with wire cutters.  
1. The Correct Welding Position  
Figure B.23 illustrates the correct welding position  
for right handed people. (For left handed people, it  
is the opposite.)  
6. When no more welding is to be done, close the  
valve on the gas cylinder, momentarily operate the  
gun trigger to release gas pressure, then turn off  
the machine.  
When GMAW (MIG) welding on sheet metal, it is  
important to use the forehandpush technique.  
Hold the gun (of the gun and cable assembly) in  
your right hand and hold the shield with your left  
hand. (Left handers simply do the opposite.)  
SP-170-I  
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B-15  
B-15  
LEARNING TO WELD  
Helpful Hints  
1. For general welding, it is not necessary to weave  
the arc, neither forward or backward nor sideways.  
Weld along at a steady pace. You will find it easier.  
Contact Tip  
2. When welding on thin plate, you will find that you  
will have to increase the welding speed, whereas  
when welding on heavy plate, it is necessary to go  
more slowly in order to get good penetration.  
Wire Electrode  
ESO  
3. When welding sheet metal 16 gauge (1.5 mm) and  
lighter, heat buildup may cause part warpage and  
burn through. One way to eliminate these problems  
is to use the back-stepping method illustrated in  
Figure B.21.  
FIGURE B.24  
3. The Correct Electrical Stickout (ESO)  
The electrical stickout (ESO) is the distance from  
the end of the contact tip to the end of the wire.  
See Figure B.24.  
Practice  
Once the arc has been established, maintaining  
the correct ESO becomes extremely important.  
The ESO should be approximately 3/8 to 1/2 inch  
(10 to 12 mm) long.  
The best way of getting practice in the four skills that  
enable you to maintain:  
1. Correct welding position  
2. Correct way to strike an arc  
3. Correct electrical stickout  
4. Correct welding speed  
The easiest way to tell whether the ESO is the cor-  
rect length is by listening to its sound. The correct  
ESO has a distinctive cracklingsound, very much  
like eggs frying in a pan. A long ESO has a hollow,  
blowing or hissing sound. If the ESO is too short,  
you may stick the contact tip or nozzle to the weld  
puddle and/or fuse the wire to the contact tip.  
is to perform the following exercise.  
4. The Correct Welding Speed  
For the SP 170-I, use the following:  
The important thing to watch while welding is the  
puddle of molten metal right behind the arc. See  
Figure B.25. Do not watch the arc itself. It is the  
appearance of the puddle and the ridge where the  
molten Puddle solidifies that indicates correct weld-  
ing speed. The ridge should be approximately 3/8”  
(10 mm) behind the wire electrode.  
Mild Steel  
16 gauge or 1/16 inch  
(1.6 mm)  
Electrode  
Lincolnweld 0.025 L-56  
electrode  
CO2  
Voltage Setting V”  
C
4
Most beginners tend to weld too fast, resulting in a  
thin, uneven, wormylooking bead. They are not  
watching the molten metal.  
Wire Feed Speed o|o”  
Refer to Figure B.22.  
1. Learn to strike an arc by positioning the gun over  
the joint and touching the wire to the work.  
Molten puddle  
2. Position face shield to protect face and eyes.  
Weld metal ridge  
Base metal  
3. Depress gun trigger, hold gun so contact tip to  
work distance Is about 3/8 to 1/2 inch (10 to 12  
mm) and the gun is at proper angle.  
FIGURE B.25  
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B-16  
B-16  
LEARNING TO WELD  
4. After you strike the arc, practice the correct electri-  
cal stickout. Learn to distinguish it by its sound.  
2. Decrease stickout.  
3. Decrease WFS (wire feed speed.  
4. Decrease travel speed.  
5. Decrease drag angle.  
5. When you are sure that you can hold the correct  
electrical stickout, with a smooth cracklingarc,  
start moving. Look at the molten puddle constantly,  
6. Check for correct gas, if used.  
6. Run beads on a flat plate. Run them parallel to the  
top edge (the edge farthest away from you). This  
gives you practice in running straight welds, and  
also gives you an easy way to check your  
progress. The 10th weld will look considerably bet-  
ter than the first weld. By constantly checking on  
your mistakes and your progress, welding will soon  
be a matter of routine.  
To Reduce Spatter (in order of importance):  
TROUBLESHOOTING WELDS  
1. Increase voltage.  
Good welds have excellent appearance.  
2. Increase drag angle.  
3. Decrease stickout.  
4. Increase WFS (wire feed speed).  
5. Decrease travel speed.  
6. Check for correct gas, if used.  
To Correct Poor Penetration (in order of impor-  
tance):  
To Eliminate Porosity (in order of importance):  
1. Decrease stickout.  
2. Increase WFS (wire feed speed).  
3. Increase voltage.  
4. Decrease speed.  
5. Decrease drag angle.  
6. Check for correct gas, if used.  
1. Turn on gas supply, if used  
2. Decrease voltage.  
If Arc Blow Occurs (in order of importance):  
NOTE: Try different ground connection locations  
before adjusting procedures.  
3. Increase stickout.  
4. Increase WFS (wire feed speed).  
5. Decrease drag angle.  
6. Decrease travel speed.  
1. Decrease drag angle.  
2. Increase stickout.  
3. Decrease voltage.  
NOTE: Always be sure the joint is free from moisture,  
oil, rust, paint or other contaminants.  
4. Decrease WFS (wire feed speed.  
5. Decrease travel speed.  
To Eliminate a Ropy Convex Bead  
(in order of importance):  
To Eliminate Stubbing* (in order of importance):  
1. Increase voltage  
2. Decrease WFS (wire feed speed)  
3. Decrease stickout  
4. Increase drag angle  
* Stubbing occurs when the electrode drives through  
the molten puddle and hits the bottom plate tending  
to push the gun up.  
1. Increase voltage  
SP 170-I  
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B-17  
B-17  
LEARNING TO WELD  
Proper Gun Handling  
Most feeding problems are caused by improper han-  
dling of the gun cable or electrodes.  
1. Do not kink or pull the gun around sharp corners  
2. Keep the gun cable as straight as practical when  
welding.  
3. Do not allow dolly wheels or trucks to run over the  
cables.  
4. Keep the cable clean.  
5. Innershield electrode has proper surface lubrica-  
tion. Use only clean, rust-free electrode.  
6. Replace contact tip when it becomes worn or the  
end is fused or deformed.  
SP 170-I  
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B-18  
B-18  
APPLICATION CHART  
I - 0 7 S P 1 2 7 3 L 1 0  
SP-170-I  
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C-1  
C-1  
ACCESSORIES  
4. K464 .035" (0.9 mm) Innershield® Welding Kit  
Includes a contact tip, a gasless nozzle and a  
.035/.045" (0.9/1.2 mm) cable liner to permit the  
gun and cable to use .035" (0.9 mm) diameter flux-  
cored electrode. The fitting on the end of the liner  
is stenciled with the maximum rated wire size  
(.045"/1.2 mm). Also included is a 10 lb.(4.5 kg.)  
spool of .035" (0.9 mm) Innershield® NR-211-MP.  
OPTIONAL ACCESSORIES  
See Maintenance section for instructions on  
installing drive roll, cable liner, contact tip and their  
proper configuration.  
1. KP665-045C Drive Roll Optional Knurled  
drive roll for feeding .035 - .045(0.9 - 1.2 mm)  
diameter flux-cored electrode.  
For use with Lincoln Electric®” gun (with black  
trigger). The end of the brass fitting on the end of  
the .035/.045(0.9/1.2mm) liner is color coded  
green. (The .023-.030(0.6-0.8mm) liner is color  
coded orange).  
2. K695-1 Spot / Stitch Timer Kit Includes spot  
timer to control the spot welding arc time, and a  
stitch timer to control the on/off cycle time of the  
arc to prevent burnthrough on thin gauge metals.  
Also includes spot welding nozzle.  
See Innershield (FCAW) Conversionin this sec-  
tion for installation instructions and MAINTE-  
NANCE section for proper feeding component con-  
figuration and installation.  
The Spot/Stitch Timer Kit installs inside the wire  
feed compartment, replacing the blank panel locat-  
ed below the gun trigger lead connectors, per the  
installation instructions (M17920) included with the  
kit.  
5. K491 .045" (1.2 mm) Innershield® Welding Kit  
Includes a contact tip, a gasless nozzle and a  
.035/.045" (0.9/1.2 mm) cable liner to permit the  
gun and cable to use .045" (1.2 mm) diameter flux-  
cored electrode. The fitting on the end of the liner  
is stenciled with the maximum rated wire size  
(.045"/1.2 mm). Also included is a 10 lb.(4.5 kg.)  
spool of .045" (1.2 mm) Innershield® NR-211-MP  
and a knurled drive roll for .035(0.9mm) and .045”  
(1.2mm) wire.  
3. K520 Utility Cart Designed to transport the  
Lincoln family of small welders. Has provisions for  
mounting a single gas cylinder. Has front casters  
and large rear wheels. Handle height is easily  
adjustable. Bottom tray provided for tools and  
accessories. Easy assembly required; takes less  
than 15 minutes.  
For use with Lincoln Electric®” gun (with black  
trigger). The end of the brass fitting on the end of  
the .035/.045(0.9/1.2mm) liner is color coded  
green. (The .023-.030(0.6-0.8mm) liner is color  
coded orange).  
See Innershield (FCAW) Conversionin this sec-  
tion for installation instructions and MAINTE-  
NANCE section for proper feeding component con-  
figuration and installation.  
SP-170-I  
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C-2  
C-2  
ACCESSORIES  
INNERSHIELD (FCAW)  
CONVERSION  
REPLACEMENT PARTS  
Complete Gun and Cable Assembly (Code 10488  
Several changes are needed to convert the unit for  
operation with the Innershield (FCAW) process. The  
following conversions should be reviewed before  
welding with (FCAW):  
and 10489 only)  
L10738  
Complete Gun and Cable Assembly (Code 10490  
and above only)  
1. Change the output polarity to DC(). See Work  
L10744  
Cable Installationin Installation section for details.  
Contact Tip .025(0.6 mm)  
2. Install proper drive roll for the wire size selected.  
See Changing Drive Rollin Maintenance section  
for details.  
S18704-1  
Contact Tip .030(0.8 mm)  
S18704-2  
3. Install the proper gun liner and tip for the wire size  
selected. See Component Replacementin  
Maintenance section for details.  
Contact Tip .035(0.9 mm)  
S18704-3  
4. Remove gas nozzle (if installed) and install gasless  
nozzle.  
Contact Tip .045(1.2 mm)  
S18704-13  
5. Load wire into machine and thread into gun and  
Liner .023 - .030(0.6 - 0.8 mm)  
S18704-4 (Color coded Orange)  
cable per Welding Wire Loadingsection.  
Liner .035/.045(0.9/1.2 mm)  
S18704-5 (Color coded Green)  
Liner for Aluminum .040 (1.0 mm)  
S18704-17 (Color coded Black)  
Gas Diffuser  
S18704-6  
Gas Nozzle  
S18704-7  
Gasless Nozzle (Innershield Only)  
S18704-14  
SP 170-I  
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D-1  
D-1  
MAINTENANCE  
MAINTENANCE  
SAFETY PRECAUTIONS  
WARNING  
ELECTRIC SHOCK can kill.  
Disconnect input power by removing plug  
from receptacle before working inside  
SP170-I. Use only grounded receptacle. Do  
not touch electrically hotparts inside  
SP 170-I.  
Have qualified personnel do the mainte-  
nance and trouble shooting work.  
ROUTINE MAINTENANCE  
POWER SOURCE COMPARTMENT  
In extremely dusty locations, dirt may clog the air passages  
causing the welder to run hot. Blow dirt out of the welder with  
low pressure air at regular intervals to eliminate excessive dirt  
and dust build-up on interval parts.  
WIRE FEED COMPARTMENT  
1. When necessary, vacuum accumulated dirt from gearbox and  
wire feed section.  
2. Occasionally inspect the incoming guide tube and clean  
inside diameter if necessary.  
3. Motor and gearbox have lifetime lubrication and require no  
maintenance.  
FAN MOTOR  
Has lifetime lubrication requires no maintenance.  
WIRE REEL SPINDLE  
Requires no maintenance. Do not lubricate shaft.  
SP 170-I  
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D-2  
D-2  
MAINTENANCE  
2. Replace worn contact tips as required. A variable  
or huntingarc is a typical symptom of a worn con-  
tact tip. To install a new tip, choose the correct size  
contact tip for the electrode being used (wire size is  
stenciled on the side of the contact tip) and screw it  
snugly into the gas diffuser.  
GUN AND CABLE  
MAINTENANCE  
Gun Cable Cleaning  
Clean cable liner after using approximately 300 lbs  
(136 kg) of solid wire or 50 lbs (23 kg) of flux-cored  
wire. Remove the cable from the wire feeder and lay it  
out straight on the floor. Remove the contact tip from  
the gun. Using low pressure air, gently blow out the  
cable liner from the gas diffuser end.  
3. Remove spatter from inside of gas nozzle and from  
tip after each 10 minutes of arc time or as required.  
4. Be sure the gas nozzle is fully screwed onto the  
diffuser for gas shielded processes. For the  
Innershield® process, the gasless nozzle should be  
screwed onto the diffuser.  
CAUTION  
5. To remove gun tube from gun, remove gas nozzle  
or gasless nozzle and remove diffuser from gun  
tube. Remove both collars from each end of the  
gun handle and separate the handle halves.  
Loosen the locking nut holding the gun tube in  
place against the gun end cable connector.  
Unscrew gun tube from cable connector. To install  
gun tube, screw the locking nut on the gun tube as  
far as possible. Then screw the gun tube into the  
cable connector until it bottoms. Then unscrew (no  
more than one turn) the gun tube until its axis is  
perpendicular to the flat sides of the cable connec-  
tor and pointed in the direction of the trigger.  
Tighten the locking nut so as to maintain the proper  
relationship between the gun tube and the cable  
connector. Replace the gun handle, trigger and dif-  
fuser. Replace the gas nozzle or gasless nozzle.  
Excessive pressure at the start may cause the dirt  
to form a plug.  
Flex the cable over its entire length and again blow  
out the cable. Repeat this procedure until no further  
dirt comes out.  
Contact Tips, Nozzles, and Gun Tubes  
1. Dirt can accumulate in the contact tip hole and  
restrict wire feeding. After each spool of wire is  
used, remove the contact tip and clean it by push-  
ing a short piece of wire through the tip repeatedly.  
Use the wire as a reamer to remove dirt that may  
be adhering to the wall of the hole through the tip.  
CONFIGURATION OF COMPONENTS IN WIRE FEEDING SYSTEM  
Contact Tip  
Cable Liner  
Drive Roll  
Components shipped with  
S18704-2 (Installed)  
S18704-5  
KP665-035  
SP 170-Iº  
.030(0.8mm)  
.035-.045”  
(0.9-1.2mm)  
2 Smooth grooves  
Small .025(0.6mm)  
Large .030(0.8mm)  
Components shipped with  
S18704-13  
S18704-17  
KP665-045C  
UWW-170•  
.045(1.2mm)  
.040(1.0mm)  
For Aluminum  
2 Knurled grooves  
Small .035(0.9mm)  
Large .045(1.2mm)  
º If other size wire feeding is desired use the additional Contact Tips shipped loose with your SP 170-I.  
It is important when changing between welding with steel wire and aluminum to exchange feeding components due to the lubricant applied to steel wire. Failure  
to do so may result in contaminated welds when welding aluminum.  
SP-170-I  
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D-3  
D-3  
MAINTENANCE  
6. Loosen the drive roll set screw with the 5/64" (2.0  
mm) hex wrench supplied.  
COMPONENT  
REPLACEMENT  
PROCEDURES  
7. Remove the drive roll, flip over and reinstall with the  
.023/.025" (0.6mm) groove (the smaller groove)  
closest to the gearbox.  
CHANGING THE CONTACT TIP (These  
instructions pertain to the Lincoln Electric® gun having  
a black trigger. The instructions for the Magnum™  
100L gun, having a red trigger, are similar except that  
the gas nozzle and contact tip are both threaded.)  
8. Push a length of straightened welding wire through  
the wire feeder guide tubes and adjust the position  
of the drive roll so that the groove is centered on  
the wire. Make certain the set screw is located on  
the flat portion of the shaft and tighten.  
1. Refer to Figure D.2a or D.2b. Remove the gas noz-  
zle from the gun by pulling it off the diffuser.  
(Threadless slip fit).  
2. Remove the existing contact tip from the gun by  
gripping it with pliers and twisting counter-clock-  
wise. Tip will now slip out of diffuser.  
3. Insert new tip into diffuser. Grip it with pliers, push  
tip into diffuser until it bottoms, then twist clockwise  
to tighten (cam-lock).  
3
4. Replace gas nozzle.  
2
CHANGING DRIVE ROLL (SP 170-I only)  
1
The drive roll has two grooves; one for .023" .025"  
(0.6 mm) solid steel electrode and a larger groove for  
.030" (0.8 mm) solid and .035" (0.9 mm) flux-cored  
steel electrode. As shipped, the drive roll is installed in  
the .030"-.035" (0.8/0.9mm) position.  
FIGURE D.1  
If .023"/.025" (0.6mm) wire is to be used, the drive roll  
must be reversed as follows:  
CHANGING DRIVE ROLL (UWW-170 only)  
1. Connect the machine to its rated input power per  
instructions in Installation section.  
The UWW-170 has dual knurled grooves of the same  
size; either capable of feeding .035/.045 (0.9/1.2mm)  
wire. When a groove becomes worn, use the above  
procedure to flip the roll to the unused groove.  
2. Release the spring-loaded pressure arm and lift the  
idle roll arm away from the drive roll.  
3. Turn the power switch to ON (marked I).  
4. Set the wire speed to minimum and jog the drive  
unit with the trigger switch until the drive roll set  
screw is facing up.  
CAUTION  
When inching the welding wire, the drive rolls,  
gun connector block, and gun contact tip are  
energized relative to work and ground and remain  
energized for several seconds after the gun trig-  
ger is released.  
5. Turn the power switch to OFF (marked O).  
SP 170-I  
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D-4  
D-4  
MAINTENANCE  
CHANGING LINER  
NOTICE: The variation in cable lengths pre-  
vents the interchangeability of liners. Once a  
liner has been cut for a particular gun, it  
should not be installed in another gun unless  
it can meet the liner cutoff length require-  
ment. Refer to Figure D.2a or D.2b.  
5/8(15.9 mm)  
Liner Trim Length  
Gas Diffuser  
1. Remove the gas nozzle from the gun  
(threadless slip-fit or threaded).  
Contact Tip  
(Cam-Lock)  
Slotted  
Set Screw  
Brass Cable  
Connector  
2. Remove the existing contact tip from the  
gun by twisting counter-clockwise (cam-  
lock) or unscrewing (threaded).  
Gas Nozzle or  
Gasless Nozzle  
(Slip-Fit)  
3. Remove the gas diffuser from the gun  
tube by unscrewing counter-clockwise.  
Liner Assembly  
(Liner bushing to be seated tight  
against brass cable connector)  
4. Lay the gun and cable out straight on a  
flat surface. Loosen the set screw located  
in the brass connector at the wire feeder  
end of the cable. Pull the liner out of the  
cable.  
FIGURE D.2a  
Liner trim length for gun with black trigger (Lincoln Electric®)  
5. Insert a new untrimmed liner into the con-  
nector end of the cable. Be sure the liner  
bushing is stenciled appropriately for the  
wire size being used.  
6. Fully seat the liner bushing into the con-  
nector. Tighten the set screw on the brass  
cable connector. At this time, the gas dif-  
fuser should not be installed onto the end  
of the gun tube.  
1-1/4 (31.8 mm)  
Liner Trim Length  
Gas Diffuser  
Slotted  
Brass Cable  
Connector  
Contact Tip  
(Threaded)  
7. With the gas nozzle and diffuser removed  
from the gun tube, be sure the cable is  
straight, and then trim the liner to the  
length shown in the Figure D.2a or D.2b.  
Remove any burrs from the end of the  
liner.  
Set Screw  
Gas Nozzle or  
Gasless Nozzle  
(Threaded)  
Liner Assembly  
(Liner bushing to be seated tight  
against brass cable connector)  
8. Screw the gas diffuser onto the end of the  
gun tube and securely tighten.  
FIGURE D.2b  
Liner trim length for gun with red trigger (Magnum100L)  
9. Replace the contact tip and nozzle.  
SP 170-I  
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D-5  
D-5  
MAINTENANCE  
GUN HANDLE PARTS (red trigger)  
GUN HANDLE PARTS (black trigger)  
The gun handle consists of two halves that are held  
together with a collar on each end. To open up the  
handle, turn the collars approximately 60 degrees  
counter-clockwise until the collar reaches a stop. Then  
pull the collar off the gun handle. If the collars are diffi-  
cult to turn, position the gun handle against a corner,  
place a screwdriver against the tab on the collar and  
give the screwdriver a sharp blow to turn the collar  
past an internal locking rib. See Figure D-4.  
The gun handle consists of two halves that are held  
together with a C-clip (located at the cable end of the  
gun). To open up the gun handle assembly, remove  
the C-clip and pry down the trigger handle half with a  
screwdriver. See Figure D.3.  
Screwdriver  
C-clip  
Counter-clockwise  
Cable  
FIGURE D.3  
FIGURE D.4  
SP 170-I  
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E-1  
E-1  
TROUBLESHOOTING  
HOW TO USE TROUBLESHOOTING GUIDE  
WARNING  
Service and Repair should only be performed by Lincoln Electric Factory Trained Personnel.  
Unauthorized repairs performed on this equipment may result in danger to the technician and  
machine operator and will invalidate your factory warranty. For your safety and to avoid Electrical  
Shock, please observe all safety notes and precautions detailed throughout this manual.  
__________________________________________________________________________  
This Troubleshooting Guide is provided to help you  
locate and repair possible machine malfunctions.  
Simply follow the three-step procedure listed below.  
Step 3. RECOMMENDED COURSE OF ACTION  
This column provides a course of action for the  
Possible Cause, generally it states to contact your  
local Lincoln Authorized Field Service Facility.  
Step 1. LOCATE PROBLEM (SYMPTOM).  
Look under the column labeled PROBLEM (SYMP-  
TOMS). This column describes possible symptoms  
that the machine may exhibit. Find the listing that  
best describes the symptom that the machine is  
exhibiting.  
If you do not understand or are unable to perform the  
Recommended Course of Action safely, contact your  
local Lincoln Authorized Field Service Facility.  
Step 2. POSSIBLE CAUSE.  
The second column labeled POSSIBLE CAUSElists  
the obvious external possibilities that may contribute  
to the machine symptom.  
CAUTION  
If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, contact your  
Local Lincoln Authorized Field Service Facility for technical troubleshooting assistance before you proceed.  
SP 170-I  
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E-2  
E-2  
TROUBLESHOOTING  
Observe Safety Guidelines detailed in the beginning of this manual.  
PROBLEMS  
(SYMPTOMS)  
POSSIBLE AREAS OF  
MISADJUSTMENT(S)  
RECOMMENDED  
COURSE OF ACTION  
OUTPUT PROBLEMS  
Major physical or electrical damage None  
is evident.  
Contact your local Authorized Field  
Service Facility.  
No wire feed, weld output or gas  
flow when gun trigger is pulled. Fan  
does NOT operate.  
1. Make sure correct voltage is  
applied to the machine. See  
Installation section, Electrical  
Connections.  
2. Make certain that power switch  
is in the ON position.  
Contact your local Lincoln  
3. Make sure circuit breaker inside  
wire drive compartment is reset.  
Authorized Field Service Facility.  
No wire feed, weld output or gas  
flow when gun trigger is pulled Fan  
operates normally.  
1. The thermostat may be tripped  
due to overheating. Let machine  
cool. Weld at lower duty cycle.  
2. Check for obstructions in air  
flow.  
3. Check Gun Trigger connections.  
See Installation section.  
4. Gun trigger may be faulty.  
CAUTION  
If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, contact your  
LOCAL AUTHORIZED LINCOLN ELECTRIC FIELD SERVICE FACILITY for assistance before you proceed.  
SP 170-I  
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E-3  
E-3  
TROUBLESHOOTING  
Observe Safety Guidelines detailed in the beginning of this manual.  
PROBLEMS  
(SYMPTOMS)  
POSSIBLE AREAS OF  
MISADJUSTMENT(S)  
RECOMMENDED  
COURSE OF ACTION  
FEEDING PROBLEMS  
No wire feed when gun trigger is  
pulled. Fan runs, gas flows and  
machine has correct open circuit  
voltage (33 VDC maximum) weld  
output.  
1. If the wire drive motor is running  
make sure that the correct drive  
rolls are installed in the machine.  
Contact your local Lincoln  
Authorized Field Service Facility.  
2. Check for clogged cable liner or  
contact tip.  
3. Check for proper size cable liner  
and contact tip.  
PROBLEMS  
(SYMPTOMS)  
POSSIBLE AREAS OF  
MISADJUSTMENT(S)  
RECOMMENDED  
COURSE OF ACTION  
GAS FLOW PROBLEMS  
Low or no gas flow when gun  
trigger is pulled. Wire feed, weld  
output and fan operate normally.  
1. Check gas supply, flow regulator  
and gas hoses.  
Contact your local Lincoln  
Authorized Field Service Facility.  
2. Check gun connection to  
machine for obstruction or leaky  
seals.  
CAUTION  
If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, contact your  
LOCAL AUTHORIZED LINCOLN ELECTRIC FIELD SERVICE FACILITY for assistance before you proceed.  
SP 170-I  
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E-4  
E-4  
TROUBLESHOOTING  
Observe Safety Guidelines detailed in the beginning of this manual.  
PROBLEMS  
(SYMPTOMS)  
POSSIBLE AREAS OF  
MISADJUSTMENT(S)  
RECOMMENDED  
COURSE OF ACTION  
WELDING PROBLEMS  
Arc is unstable Poor starting  
1. Check for correct input voltage  
to machine. See Installation sec-  
tion, Electrical Input  
Connections.  
2. Check for proper electrode  
polarity for process.  
3. Check gun tip for wear or dam-  
age and proper size Replace.  
Contact your local Lincoln  
4. Check for proper gas and flow  
rate for process. (For MIG only.)  
Authorized Field Service Facility.  
5. Check work cable for loose or  
faulty connections.  
6. Check gun for damage or  
breaks.  
7. Check for proper drive roll orien-  
tation and alignment.  
8. Check liner for proper size.  
CAUTION  
If for any reason you do not understand the test procedures or are unable to perform the tests/repairs safely, contact your  
LOCAL AUTHORIZED LINCOLN ELECTRIC FIELD SERVICE FACILITY for assistance before you proceed.  
SP-170-I  
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F-1  
F-1  
WIRING DIAGRAMS  
WIRING DIAGRAM:  
SP-170-I  
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NOTES  
SP 170-I  
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BOOKS OR FREE INFORMATIVE CATALOGS  
Order from: BOOK DIVISION, The Lincoln Electric Company, 22801 St. Clair Avenue, Cleveland, Ohio 44117-1199  
Telephone: 216-383-2211 or, for fastest service, FAX this completed form to: 216-361-5901.  
Lincoln Welding School  
Titles:  
Price  
$5.00  
$15.00  
$4.50  
$5.00  
Code  
L
PH  
H
IM  
Quantity  
Cost  
(ED-80)  
New Lessons in Arc Welding  
Procedure Handbook Twelfth Edition”  
How to Read Shop Drawings  
Incentive Management  
A New Approach to Industrial Economics $5.00  
The American Century of John C. Lincoln $5.00  
Seminar Information  
(ED-45)  
Educational Video Information  
(ED-93)  
NA  
AC  
James F. Lincoln Arc Welding  
Foundation Book Information  
Welding Preheat Calculator  
Pipe Welding Charts  
$3.00  
$4.50  
WC-8  
ED-89  
(JFLF-515)  
SUB TOTAL  
Additional Shipping Costs if any  
TOTAL COST  
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Do not touch electrically live parts or  
electrode with skin or wet clothing.  
Insulate yourself from work and  
ground.  
Keep flammable materials away.  
Wear eye, ear and body protection.  
WARNING  
Spanish  
No toque las partes o los electrodos Mantenga el material combustible  
Protéjase los ojos, los oídos y el  
bajo carga con la piel o ropa moja-  
da.  
Aislese del trabajo y de la tierra.  
fuera del área de trabajo.  
cuerpo.  
AVISO DE  
PRECAUCION  
French  
Ne laissez ni la peau ni des vête-  
ments mouillés entrer en contact  
avec des pièces sous tension.  
Gardez à l’écart de tout matériel  
inflammable.  
Protégez vos yeux, vos oreilles et  
votre corps.  
ATTENTION  
Isolez-vous du travail et de la terre.  
German  
Berühren Sie keine stromführenden  
Teile oder Elektroden mit Ihrem  
Körper oder feuchter Kleidung!  
Isolieren Sie sich von den  
Entfernen Sie brennbarres Material! Tragen Sie Augen-, Ohren- und Kör-  
perschutz!  
WARNUNG  
Elektroden und dem Erdboden!  
Portuguese  
Não toque partes elétricas e elec-  
trodos com a pele ou roupa molha-  
da.  
Mantenha inflamáveis bem guarda- Use proteção para a vista, ouvido e  
dos.  
corpo.  
ATENÇÃO  
Isole-se da peça e terra.  
Japanese  
Chinese  
Korean  
Arabic  
READ AND UNDERSTAND THE MANUFACTURER’S INSTRUCTION FOR THIS EQUIPMENT AND THE CONSUMABLES TO BE  
USED AND FOLLOW YOUR EMPLOYER’S SAFETY PRACTICES.  
SE RECOMIENDA LEER Y ENTENDER LAS INSTRUCCIONES DEL FABRICANTE PARA EL USO DE ESTE EQUIPO Y LOS  
CONSUMIBLES QUE VA A UTILIZAR, SIGA LAS MEDIDAS DE SEGURIDAD DE SU SUPERVISOR.  
LISEZ ET COMPRENEZ LES INSTRUCTIONS DU FABRICANT EN CE QUI REGARDE CET EQUIPMENT ET LES PRODUITS A  
ETRE EMPLOYES ET SUIVEZ LES PROCEDURES DE SECURITE DE VOTRE EMPLOYEUR.  
LESEN SIE UND BEFOLGEN SIE DIE BETRIEBSANLEITUNG DER ANLAGE UND DEN ELEKTRODENEINSATZ DES HER-  
STELLERS. DIE UNFALLVERHÜTUNGSVORSCHRIFTEN DES ARBEITGEBERS SIND EBENFALLS ZU BEACHTEN.  
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Keep your head out of fumes.  
Use ventilation or exhaust to  
remove fumes from breathing zone.  
Turn power off before servicing.  
Do not operate with panel open or  
guards off.  
WARNING  
Spanish  
Los humos fuera de la zona de res-  
piración.  
Mantenga la cabeza fuera de los  
humos. Utilice ventilación o  
aspiración para gases.  
Desconectar el cable de ali-  
mentación de poder de la máquina  
antes de iniciar cualquier servicio.  
No operar con panel abierto o  
guardas quitadas.  
AVISO DE  
PRECAUCION  
French  
Débranchez le courant avant l’entre- N’opérez pas avec les panneaux  
tien.  
Gardez la tête à l’écart des fumées.  
Utilisez un ventilateur ou un aspira-  
teur pour ôter les fumées des zones  
de travail.  
ouverts ou avec les dispositifs de  
protection enlevés.  
ATTENTION  
German  
Strom vor Wartungsarbeiten  
abschalten! (Netzstrom völlig öff-  
nen; Maschine anhalten!)  
Anlage nie ohne Schutzgehäuse  
oder Innenschutzverkleidung in  
Betrieb setzen!  
Vermeiden Sie das Einatmen von  
Schweibrauch!  
Sorgen Sie für gute Be- und  
Entlüftung des Arbeitsplatzes!  
WARNUNG  
Portuguese  
Não opere com as tampas removidas.  
Desligue a corrente antes de fazer  
serviço.  
Mantenha-se afastado das partes  
moventes.  
Não opere com os paineis abertos  
ou guardas removidas.  
Mantenha seu rosto da fumaça.  
Use ventilação e exhaustão para  
remover fumo da zona respiratória.  
ATENÇÃO  
Não toque as partes elétricas nuas.  
Japanese  
Chinese  
Korean  
Arabic  
LEIA E COMPREENDA AS INSTRUÇÕES DO FABRICANTE PARA ESTE EQUIPAMENTO E AS PARTES DE USO, E SIGA AS  
PRÁTICAS DE SEGURANÇA DO EMPREGADOR.  
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World's Leader in Welding and Cutting Products •  
Sales and Service through Subsidiaries and Distributors Worldwide •  
Cleveland, Ohio 44117-1199 U.S.A. TEL: 216.481.8100 FAX: 216.486.1751 WEB SITE: www.lincolnelectric.com  
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