August 2000
Form: OM-179 078
Effective With Serial No. KG041900
OWNER’S
MANUAL
cyclomatic
Model DWF–3 Cold Wire Feeder System
Automatic Control For Supplying Filler Wire Into The Weld
GTAW And PAW
Stepper Motor For Accurate, Repeatable Feed Rates
120/240 Volts AC Input Power To Control Unit
Overload Protection
Automatic Wire Retract At End Of Weld Cycle
Read and follow these instructions and all
safety blocks carefully.
Give this manual to the operator.
Have only trained and qualified persons
install, operate, or service this unit.
For help, call your distributor
Call your distributor if you do not understand
the directions.
or: MILLER Electric Mfg. Co., P.O. Box 1079,
Appleton, WI 54912
414-734-9821
1996 MILLER Electric Mfg. Co.
cover 5/94
PRINTED IN USA
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ARC WELDING SAFETY PRECAUTIONS
ARC WELDING can be hazardous.
WARNING
PROTECT YOURSELF AND OTHERS FROM POSSIBLE SERIOUS INJURY OR DEATH. KEEP CHILDREN
AWAY. PACEMAKER WEARERS KEEP AWAY UNTIL CONSULTING YOUR DOCTOR.
In welding, as in most jobs, exposure to certain hazards occurs. Welding is safe when precautions are taken. The
safety information given below is only a summary of the more complete safety information that will be found in the
Safety Standards listed on the next page. Read and follow all Safety Standards.
HAVE ALL INSTALLATION, OPERATION, MAINTENANCE, AND REPAIR WORK PERFORMED ONLY BY
QUALIFIED PEOPLE.
in disconnect box or that cord plug is connected to a properly
groundedreceptacle outlet.
ELECTRIC SHOCK can kill.
Touching live electrical parts can cause fatal shocks
or severe burns. The electrode and work circuit is
electrically live whenever the output is on. The input
power circuit and machine internal circuits are also
live when power is on. In semiautomatic or automatic
wire welding, the wire, wire reel, drive roll housing, and
all metal parts touching the welding wire are
electrically live. Incorrectly installed or improperly
groundedequipment is a hazard.
7. When making input connections, attach proper grounding
conductor first – double-check connections.
8. Frequentlyinspect input power cord for damage or bare wiring –
replace cord immediately if damaged – bare wiring can kill.
9. Turn off all equipment when not in use.
10. Do not use worn, damaged, undersized, or poorly spliced cables.
11. Do not drape cables over your body.
1. Do not touch live electrical parts.
12. If earth grounding of the workpiece is required, ground it directly
2. Wear dry, hole-free insulating gloves and body protection.
with a separate cable – do not use work clamp or work cable.
3. Insulate yourself from work and ground using dry insulating mats
or covers big enough to prevent any physical contact with the
work or ground.
13. Do not touch electrode if you are in contact with the work, ground,
or another electrode from a different machine.
4. Disconnect input power or stop engine before installing or
servicing this equipment. Lockout/tagout input power according
to OSHA 29 CFR 1910.147 (see Safety Standards).
14. Use only well-maintained equipment. Repair or replace
damagedparts at once. Maintain unit according to manual.
15. Wear a safety harness if working above floor level.
16. Keep all panels and covers securely in place.
5. Properly install and ground this equipment according to its
Owner’s Manual and national, state, and local codes.
6. Always verify the supply ground – check and be sure that input
17. Clamp work cable with good metal-to-metal contact to workpiece
or worktable as near the weld as practical.
power cord ground wire is properly connected to ground terminal
ARC RAYS
ARC RAYS can burn eyes and skin;
NOISE can damage hearing; FLYING
SLAG OR SPARKS can injure eyes.
Arc rays from the welding process produce intense
visible and invisible (ultraviolet and infrared) rays that
can burn eyes and skin. Noise from some processes
can damage hearing. Chipping, grinding, and welds
cooling throw off pieces of metal or slag.
2. Wear a welding helmet fitted with a proper shade of filter to
protect your face and eyes when welding or watching (see ANSI
Z49.1 and Z87.1 listed in Safety Standards).
3. Wear approved safety glasses with side shields.
4. Use protective screens or barriers to protect others from flash
and glare; warn others not to watch the arc.
NOISE
5. Wear protective clothing made from durable, flame-resistant
material(wool and leather) and foot protection.
1. Use approved ear plugs or ear muffs if noise level is high.
5. Work in a confined space only if it is well ventilated, or while
wearing an air-supplied respirator. Always have a trained
watchperson nearby. Welding fumes and gases can displace air
and lower the oxygen level causing injury or death. Be sure the
breathing air is safe.
FUMES AND GASES can be hazardous
to your health.
Welding produces fumes and gases. Breathing these
fumes and gases can be hazardous to your health.
6. Do not weld in locations near degreasing, cleaning, or spraying
operations.The heat and rays of the arc can react with vapors to
form highly toxic and irritating gases.
1. Keep your head out of the fumes. Do not breathe the fumes.
2. If inside, ventilate the area and/or use exhaust at the arc to
remove welding fumes and gases.
3. If ventilation is poor, use an approved air-supplied respirator.
4. Read the Material Safety Data Sheets (MSDSs) and the
manufacturer’s instruction for metals, consumables, coatings,
cleaners, and degreasers.
7. Do not weld on coated metals, such as galvanized, lead, or
cadmium plated steel, unless the coating is removed from the
weld area, the area is well ventilated, and if necessary, while
wearing an air-supplied respirator. The coatings and any metals
containingthese elements can give off toxic fumes if welded.
4. Never drape a welding torch over a gas cylinder.
5. Never allow a welding electrode to touch any cylinder.
6. Never weld on a pressurized cylinder – explosion will result.
7. Use only correct shielding gas cylinders, regulators, hoses, and
fittings designed for the specific application; maintain them and
associated parts in good condition.
CYLINDERS can explode if damaged.
Shielding gas cylinders contain gas under high
pressure. If damaged, a cylinder can explode. Since
gas cylinders are normally part of the welding
process, be sure to treat them carefully.
8. Turn face away from valve outlet when opening cylinder valve.
1. Protect compressed gas cylinders from excessive heat,
mechanical shocks, slag, open flames, sparks, and arcs.
9. Keep protective cap in place over valve except when cylinder is
in use or connected for use.
2. Install cylinders in an upright position by securing to a stationary
support or cylinder rack to prevent falling or tipping.
3. Keep cylinders away from any welding or other electrical circuits.
10. Read and follow instructions on compressed gas cylinders,
associated equipment, and CGA publication P-1 listed in Safety
Standards.
sr1.1.1 2/94
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6. Be aware that welding on a ceiling, floor, bulkhead, or partition
can cause fire on the hidden side.
WELDING can cause fire or explosion.
Welding on closed containers, such as tanks, drums,
or pipes, can cause them to blow up. Sparks can fly off
from the welding arc. The flying sparks, hot
workpiece, and hot equipment can cause fires and
burns. Accidental contact of electrode to metal
objects can cause sparks, explosion, overheating, or
fire. Check and be sure the area is safe before doing
any welding.
7. Do not weld on closed containers such as tanks, drums, or pipes,
unless they are properly prepared according to AWS F4.1 (see
Safety Standards).
8. Connect work cable to the work as close to the welding area as
practical to prevent welding current from traveling long, possibly
unknown paths and causing electric shock and fire hazards.
9. Do not use welder to thaw frozen pipes.
1. Protect yourself and others from flying sparks and hot metal.
2. Do not weld where flying sparks can strike flammable material.
3. Remove all flammables within 35 ft (10.7 m) of the welding arc. If
this is not possible, tightly cover them with approved covers.
4. Be alert that welding sparks and hot materials from welding can
easily go through small cracks and openings to adjacent areas.
5. Watch for fire, and keep a fire extinguisher nearby.
10. Remove stick electrode from holder or cut off welding wire at
contact tip when not in use.
11. Wear oil-free protective garments such as leather gloves, heavy
shirt, cuffless trousers, high shoes, and a cap.
12. Remove any combustibles, such as a butane lighter or matches,
from your person before doing any welding.
ENGINES can be hazardous.
WARNING
ENGINE EXHAUST GASES can kill.
1. Use equipment outside in open, well-ventilated areas.
Engines produce harmful exhaust gases.
2. If used in a closed area, vent engine exhaust outside and away
from any building air intakes.
3. Do not overfill tank – allow room for fuel to expand.
4. Do not spill fuel. If fuel is spilled, clean up before starting
engine.
ENGINE FUEL can cause fire or
explosion.
Engine fuel is highly flammable.
1. Stop engine and let it cool off before checking or adding fuel.
2. Do not add fuel while smoking or if unit is near any sparks or
open flames.
3. Have only qualified people remove guards or covers for
maintenanceand troubleshooting as necessary.
MOVING PARTS can cause injury.
Moving parts, such as fans, rotors, and belts can cut
fingers and hands and catch loose clothing.
4. To prevent accidental starting during servicing, disconnect
negative (–) battery cable from battery.
5. Keep hands, hair, loose clothing, and tools away from moving
parts.
1. Keep all doors, panels, covers, and guards closed and
securely in place.
6. Reinstall panels or guards and close doors when servicing is
finished and before starting engine.
2. Stop engine before installing or connecting unit.
1. Always wear a face shield when working on a battery.
SPARKS can cause BATTERY
GASES TO EXPLODE; BATTERY
ACID can burn eyes and skin.
2. Stop engine before disconnecting or connecting battery
cables.
3. Do not allow tools to cause sparks when working on a battery.
4. Do not use welder to charge batteries or jump start vehicles.
5. Observe correct polarity (+ and –) on batteries.
Batteries contain acid and generate explosive
gases.
1. If the engine is warm and checking is needed, follow steps 2
and 3.
2. Wear safety glasses and gloves and put a rag over cap.
3. Turn cap slightly and let pressure escape slowly before
completely removing cap.
STEAM AND PRESSURIZED HOT
COOLANT can burn face, eyes, and
skin.
It is best to check coolant level when engine is cold
to avoid scalding.
PRINCIPAL SAFETY STANDARDS
Safety in Welding and Cutting, ANSI Standard Z49.1, from American
Welding Society, 550 N.W. LeJeune Rd, Miami FL 33126
Safe Handling of Compressed Gases in Cylinders, CGA Pamphlet P-1,
from Compressed Gas Association, 1235 Jefferson Davis Highway,
Suite 501, Arlington, VA 22202.
Safety and Health Standards, OSHA 29 CFR 1910, from Superinten-
dent of Documents, U.S. Government Printing Office, Washington, D.C.
20402.
Code for Safety in Welding and Cutting, CSA Standard W117.2, from
CanadianStandards Association, Standards Sales, 178 Rexdale Bou-
levard, Rexdale, Ontario, Canada M9W 1R3.
Recommended Safe Practices for the Preparation for Weldingand Cut-
ting of Containers That Have Held Hazardous Substances, American
Welding Society Standard AWS F4.1, from American Welding Society,
550 N.W. LeJeune Rd, Miami, FL 33126
Safe Practices For Occupation And Educational Eye And Face Protec-
tion, ANSI Standard Z87.1, from American National Standards Institute,
1430 Broadway, New York, NY 10018.
NationalElectrical Code, NFPA Standard 70, from National Fire Protec-
Cutting And Welding Processes, NFPA Standard 51B, from National
tion Association, Batterymarch Park, Quincy, MA 02269.
Fire Protection Association, Batterymarch Park, Quincy, MA 02269.
sr1.1.1 2/94
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! IMPORTANT !
THIS MANUAL HAS BEEN DESIGNED FOR EXPERIENCED WELDING EQUIPMENT OPERATORS AND
MUST BE READ COMPLETELY BEFORE USING THIS EQUIPMENT. IF YOU LACK EXPERIENCE OR
ARE UNFAMILIAR WITH THE PRACTICES AND SAFE OPERATION OF WELDING EQUIPMENT,
PLEASE CONSULT YOUR FOREMAN. DO NOT ATTEMPT TO INSTALL, OPERATE, OR PERFORM
MAINTENANCE ON THIS EQUIPMENT UNLESS YOU ARE QUALIFIED AND HAVE READ AND
UNDERSTAND THIS MANUAL. IF IN DOUBT ABOUT INSTALLING OR OPERATING THIS EQUIPMENT,
CONTACT YOUR DISTRIBUTOR OR THE CUSTOMER SERVICE DEPARTMENT.
DEFINITIONS
NOTE
CAUTION
WARNING
DANGER
Throughout this manual, NOTE, CAUTION, WARNING and DANGER are inserted to call attention to
particular information. The methods used to identity these highlights and the purpose for which each is used,
are as follows:
NOTE
OPERATIONAL, PROCEDURAL, AND BACKGROUND INFORMATION WHICH AIDS THE OPERATOR IN
THE USE OF THE MACHINE, HELPS THE SERVICEMAN IN THE PERFORMANCE OF MAINTENANCE,
AND PREVENTS DAMAGE TO THE EQUIPMENT.
CAUTION
AN OPERATIONAL PROCEDURE WHICH, IF NOT FOLLOWED, MAY CAUSE MINOR INJURY TO THE
OPERATOR, SERVICE PERSONNEL AND/OR BYSTANDERS.
WARNING
AN OPERATIONAL PROCEDURE WHICH, IF NOT FOLLOWED, MAY CAUSE SEVERE INJURY TO THE
OPERATOR, SERVICE PERSONNEL, OR OTHERS IN THE OPERATING AREA.
DANGER
AN OPERATIONAL PROCEDURE WHICH, IF NOT FOLLOWED, WILL CAUSE SEVERE INJURY OR
EVEN DEATH TO THE OPERATOR, SERVICE PERSONNEL OR BYSTANDERS.
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EMF INFORMATION
Considerations About Welding And The Effects Of Low Frequency Electric And
Magnetic Fields
NOTE
The following is a quotation from the General Conclusions Section of
the U.S. Congress, Office of Technology Assessment, Biological
Effects of Power Frequency Electric & Magnetic Fields –
Background Paper, OTA-BP-E-53 (Washington, DC: U.S.
GovernmentPrinting Office, May 1989): “. . . there is now a very large
volume of scientific findings based on experiments at the cellular
level and from studies with animals and people which clearly
establish that low frequency magnetic fields can interact with, and
produce changes in, biological systems. While most of this work is
of very high quality, the results are complex. Current scientific
understandingdoes not yet allow us to interpret the evidence in a
single coherent framework. Even more frustrating, it does not yet
allow us to draw definite conclusions about questions of possible risk
or to offer clear science-based advice on strategies to minimize or
avoid potential risks.”
To reduce magnetic fields in the workplace, use the following
procedures:
1. Keep cables close together by twisting or taping them.
2. Arrange cables to one side and away from the operator.
3. Do not coil or drape cables around the body.
4. Keep welding power source and cables as far away as practical.
5. Connect work clamp to workpiece as close to the weld as
possible.
About Pacemakers:
The above procedures are among those also normally
recommended for pacemaker wearers. Consult your doctor for
complete information.
mod10.1 4/93
TABLE OF CONTENTS
DESCRIPTION
1.1
1.2
1.3
1.4
INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
CONTROL UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
WIRE DRIVE UNIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
WIRE GUIDE ASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
INSTALLATION
2.1
2.2
2.3
2.4
2.5
2.6
2.7
GENERAL SET–UP . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
CONTROL UNIT LOCATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
WIRE DRIVE UNIT MOUNTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
WIRE GUIDE MOUNTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-4
CONDUIT LENGTH ADJUSTMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-6
REMOTE CONTROLS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
CHANGING RETRACT DISTANCE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-8
OPERATION
3.1
3.2
3.3
3.4
PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
CONTROL DESCRIPTION – DWF–3 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
SEQUENCE OF OPERATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-2
REMOTE SIGNALS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-3
MAINTENANCE AND REPAIR
4.1
4.2
4.3
4.4
4.5
MAINTENANCE REQUIREMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
GENERAL PRECAUTIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
CONTROL UNIT CALIBRATION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
DRIVE UNIT ASSEMBLY . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
TROUBLESHOOTING . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
CIRCUIT DESCRIPTION
5.1
5.2
5.3
5.4
SPEED CONTROL CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
DELAY TIMER CIRCUITS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
DIGITAL DISPLAY CIRCUIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
MOTOR POWER SUPPLY CIRCUIT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5-1
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SECTION 1
DESCRIPTION
1.1 INTRODUCTION
Cold wire feed systems are designed for accurate application of filler wire into the weld or braze area. The
DWF–3 is designed to be used for GTAW and PAW processes. The Digital Wire Feeder System is made up of
a positive feeding wire drive with a zero backlash 3–axis wire manipulator. This combination of components
produces exceptionally good wire feeding characteristics. Systems will accommodate wire sizes from .020 in
diameter (.50 mm) to .094 in diameter (2.39 mm) and feed at an adjustable rate, continuously variable from 0
to 300 inches per minute. A standard DWF–3 system is shown in Figure 1.1.
1.2 CONTROL UNIT
The control unit uses solid state circuitry in its motor supply and control circuits and operates from a 115/230
VAC, 50/60 Hz line supply. Provisions have been made for forward or reverse jog to allow easy
pre–positioning of the filler wire. Start of wire feed and control of speed may be accomplished both manually
from the front panel or remotely through the interface connector located on the rear panel. The speed at which
the wire will feed is pre–set through use of the ”PUSH TO SET” function on the front panel and can be
controlled within 0.10 inch per minute increments. A digital readout of wire speed is provided. Start delay and
stop delay timers are also provided for cycle control. Timers can be pre–set within 0.10 second intervals from
0 to 9.9 seconds.
1.3 WIRE DRIVE UNIT
The wire drive unit uses urethane rollers to grip the wire and feed it in either direction depending on the signals
from the control unit. These rollers eliminate the need to change rollers when changing wire sizes from .020 in
(.50 mm) diameter through .062 in (1.57 mm) diameter wire. Special rollers are required for .094 in (2.39 mm)
diameter wire. All wire can be loaded into the drive while it is operating. There is no need to hand–feed the wire
through the mechanism before operating. Inlet and exit guides are provided with the wire drive. One inlet guide
covers the entire range of wire sizes from .020 in diameter (.50 mm) to .094 in (2.39 mm) diameter. Three exit
guides cover the range of wire diameters. Two of the exit guides are for the .020 in through .062 in range. The
third is for the .094 in wire. The guides are stored inside the drive housing. If a drive for .020 in – .062 in wire is
ordered, then two exit and one inlet guide will be supplied. If a drive for .094 in wire is ordered, then one exit and
one inlet guide will be supplied.
1.4 WIRE GUIDE ASSEMBLY
The wire guide assembly which is used with the DWF–3 wire drive unit consists of a guide mechanism,
conduit, liners, and tip. The guide mechanism is constructed to allow full position adjustment for vertical, cross
seam, feed angle and distance from the electrode. Tips and liners can be changed to suit the wire size being
used (see information listed in Table 1.1) Standard length of the conduit supplied with the system is 36 in
(914.4 mm). The length may be shortened by following steps 2.5A through 2.5D in the installation section.
TABLE 1.1 WIRE GUIDE DETAILS
WIRE SIZE
ROLLER
179 170
179 170
179 170
179 170
179 170
EXIT GUIDE
179 173
179 173
179 173
179 173
–
LINER
179 184
179 184
179 184
179 184
179 185
GUIDE TIP
.020 in (.50 mm)
.030 in (.76 mm)
.035 in (.89 mm)
.045 in (1.1 mm)
.062 in (1.5 mm)
–
–
–
–
–
OM-179 078
1-1
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SECTION 1
DESCRIPTION
You may also order a combination of the wire guide mechanism, tip, conduit assembly, and conduit liner
together as follows:
.020 – .062 in dia.
179 165*
*This includes all tips necessary for operation of .020 – .062 in dia. wire in one package.
Figure 1.1, DIGITAL WIRE FEED SYSTEM
OM-179 078
1-2
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SECTION 2
INSTALLATION
2.1 GENERAL SET–UP
A standard DWF–3 system is illustrated in Figure 2.1 with the necessary interconnections shown for a typical
installation. The parts are listed below:
DWF–3 (.020 – .062)
CONTROL UNIT
179 166
179 164
179 165
WIRE DRIVE UNIT
WIRE GUIDE ASSEMBLY
2.2 CONTROL UNIT LOCATION
The control unit should be placed in a location which provides easy access to the controls and proper air
ventilation for cooling. Adequate ventilation is provided by maintaining a minimum of 5 in (127 mm) of
unrestricted space between the control unit sides and rear and the nearest obstruction. The location should be
selected to minimize any dust, dirt, moisture or corrosive vapors the control unit could be subjected to. Control
unit outline dimensions are given in Figure 2.2.
CAUTION
THE CONTROL UNIT CAN OPERATE ON EITHER 100/120 VOLTS OR 208/230 VOLTS AC, 50 OR 60 HZ.
BE SURE TO SELECT THE PROPER INPUT VOLTAGE ON THE REAR PANEL BEFORE CONNECTING
TO POWER.
2.3 WIRE DRIVE UNIT MOUNTING
Figure 2.3 is an outline and a mounting dimension guide. The drive unit may be mounted using the inlet guide
surface or the bottom surface (opposite the adjusting knob) through use of the existing tapped holes in the
housing. The wire drive exit guide has a 7/16 – 20 UNF external thread for mating with the supplied wire guide
conduit for a DWF–3 system.
CAUTION
IN APPLICATIONS WHERE HIGH FREQUENCY OR CAPACITIVE DISCHARGE START IS USED THE
DRIVE HOUSING SHOULD BE GROUNDED TO THE SAME POTENTIAL AS THE WORKPIECE. THIS
WILL PREVENT POSSIBLE DAMAGE TO THE WIRE FEED DRIVE,CAUSED BY ARCING. GROUNDING
CAN BE ACCOMPLISHED THROUGH THE UNUSED THREADED MOUNTING HOLES IN THE DRIVE
HOUSING.
OM-179 078
2-1
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SECTION 2
INSTALLATION
Figure 2.1, DIGITAL WIRE FEED INSTALLATION
OM-179 078
2-2
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SECTION 2
INSTALLATION
Figure 2.2, CONTROL UNIT OUTLINE
OM-179 078
2-3
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SECTION 2
INSTALLATION
Figure 2.3, DRIVE UNIT OUTLINE
2.4 WIRE GUIDE MOUNTING
The guide mechanism portion of the wire guide assembly is made to accommodate a standard 1–3/8 in (34.9
mm) diameter machine torch barrel (see Figure 2.4). Guide tips are available for specific wire sizes from .020
in to .094 in diameter. The conduit, with proper liner is attached to both the wire drive exit guide and the wire
guide mechanism (see Table 1.1 for proper selection of these parts). Sharp bends in the conduit must be
avoided. If shorter conduit lengths are required, see Section 2.5.
OM-179 078
2-4
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SECTION 2
INSTALLATION
Figure 2.4, WIRE GUIDE ASSEMBLY
TABLE 2.1 WIRE GUIDE ASSEMBLY
PART NMBR DESCRIPTION
ITEM
1
QTY
1
–
BODY MANIPULATOR MACHINED
PIVOT–WIRE MANIPULATOR
KNOB, VERT. ADJ–WIRE MANIPULATOR
CLAMP, WIRE MANIPULATOR
RACK–WIRE MANIPULATOR
CLAMP, TORCH
2
1
–
3
1
–
4
1
–
5
1
–
6
1
–
–
7
1
COUPLING, MANIPULATOR TWECO
SCREW, THUMB 10–32 ST STEEL
SCREW, THUMB
8
1
–
9
1
–
10
11
12
13
14
15
16
17
18
19
20
1
–
FITTING MODIFIED
1
–
HOSE, FLEX–TEFLON LINED
TIP, WIRE GUIDE .020
1
179 177
179 178
179 179
179 180
179 181
179 182
–
1
TIP, WIRE GUIDE .035
1
TIP, WIRE GUIDE .045
1
TIP, WIRE GUIDE .062
1
TIP, WIRE GUIDE .030
1
TIP, WIRE GUIDE .052
1
TIP, WIRE GUIDE .094
A/R
A/R
179 184
179 185
LINER, CONDUIT
LINER, CONDUIT
OM-179 078
2-5
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SECTION 2
INSTALLATION
2.5 CONDUIT LENGTH ADJUSTMENT
The conduit as supplied is an assembled unit 36 in (914 mm) long. If shorter lengths are desired, the conduit
may be cut and reassembled according to the following steps.
A)
Disassemble existing fitting on one end. Save the fitting components. Wrap hose with masking tape at
cut–off point and cut square to length through taped area using a sharp cut–off wheel or a fine–tooth
hack saw. Remove tape and trim any loose wires flush with tube stock. Any burrs on the bore of the tube
stock should be removed with a knife. Clean the hose bore. The wire braid will tend to ”neck down” on
this end. This is characteristic of wire braid hose and can be used to advantage in the assembly of the
fittings. Slip the socket over the ”necked down” end of the hose, positioned approximately 3 in (76 mm)
from the end. Mount nipple hex in a vise. Work the hose bore over the nipple to size the tube and aid in
separating the braid prior to fitting the sleeve. Remove hose from nipple.
B)
Push the sleeve over the end of the tube and under the wire braid by hand. Complete positioning of the
sleeve by pushing the hose end against a flat surface. Visually inspect to see that tube stock butts
against the inside shoulder of the sleeve. Set the sleeve barbs into the Teflon tube by pushing the
assembly tool or a round nose tapered punch into the end of the sleeve and tube.
OM-179 078
2-6
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SECTION 2
INSTALLATION
C)
Lubricate nipple and socket threads. For stainless steel fittings, use a molydisulfide base lubricant
(e.g., Molykote Type G); lubricants containing chloride are not recommended. Other material
combinations use standard petroleum lubricants. Hold the nipple with hex in vise. Push hose over
nipple with twisting motion until seated against nipple chamfer. Push socket forward, and hand start
threading of socket to nipple.
D)
Wrench tighten nipple hex until clearance with socket hex is 1/32 in or less. Tighten further to align
corners of nipple and socket hexes. Clean and inspect all assemblies.
After the conduit is prepared, the liner may be cut to length and installed as shown in Figure 2.4 and explained
in Section 2.4.
TABLE 2.2 DIGITAL WIRE FEED REMOTE SIGNALS
SIGNAL
Remote Start/Stop
Inhibit
REMARKS
5–24 VDC, or contact closure signal to start
5–24 VDC, or contact closure signal to inhibit wire feed without stopping
weld cycle
FWD/REV JOG
Remote Speed Control
Start Delay On
Auto Feed
Contact closure signal to drive wire forward or reverse
10K potentiometer or 0–1.235 volt signal for 0–300 ipm
24 VDC lamp, or relay drive during start delay
24 VDC lamp, or relay drive during automatic cycle wire feed
24 VDC low level signal pulse 1 pulse 0.0116 inches of wire travel.
Motor Pulse
OM-179 078
2-7
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SECTION 2
INSTALLATION
2.6 REMOTE CONTROLS
A number of remote capabilities are available with the DWF–3 system. On the rear panel of the control unit a
connector is provided for remote operation. The remote connector, in addition to providing for the remote
control connections, provides the user access to other wire feeder signals. This may be used to incorporate
the DWF–3 into a complete welding package system. The signals available are listed in Figure 3.3 and are
described in more detail in Section 3.4. The factory also provides an optional prewired connector and shielded
cable for connection to these signals. (See Sections 3.4).
2.7 CHANGING RETRACT DISTANCE
The wire retract distance which occurs at the end of a wire feed cycle comes preset from the factory at 0.512
inches. This distance can be changed thru the range of 0.085 inches to 1.28 inches by changing the ”E”
jumpers. (See Table 4.3).
OM-179 078
2-8
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SECTION 3
OPERATION
3.1 PRECAUTIONS
Verify the following before connecting power to control unit.
1.
2.
Make certain the drive unit is grounded.
Check that all connections are secure and properly installed. All connections should be made to the
torch and power supply before applying power to the control unit.
3.
4.
Should the cover of the control unit be removed for any reason, be sure the AC line cord is
disconnected.
Check line voltage selector switch on rear panel for proper input voltage being used.
CAUTION
THE CONTROL UNIT CAN OPERATE ON EITHER 100/120 VOLTS OR 208/230 VOLTS AC, 50 OR 60 HZ.
BE SURE TO SELECT THE PROPER INPUT VOLTAGE ON THE REAR PANEL BEFORE CONNECTING
TO POWER.
3.2 CONTROL DESCRIPTION – DWF–3
Refer to Figure 3.1 for location of the following front panel controls.
ON–OFF: Switches primary line voltage to the control unit. When power is ON, the power indicator will be
illuminated.
MANUAL START – OFF – REMOTE START: In the center OFF position, a wire feed cannot be initiated; in the
up MANUAL START position, a wire feed cycle is started. If this switch is placed down, in the REMOTE
START position, a wire feed cycle can be initiated by applying an external signal to the proper pins of the
remote connector on the rear panel. (See Section 3.4 for complete details on REMOTE START.) The feed
cycle stops for the DWF–3 system when either the REMOTE START (if used) or the MANUAL START switch
is placed in the OFF position.
REVERSE – FORWARD JOG: Pressing the Jog Switch down, to the FORWARD position, will cause wire to
feed out of the wire drive unit at the rate of 102.4 inches per min (2601 mm/min); this speed is factory set and
cannot be changed. Pressing the Jog Switch up, to the REVERSE position, will cause wire to be pulled back
into the wire drive unit – also at 102.4 inches per min (2601 mm/min). Releasing the switch will cause it to
return to the center OFF position. In this way wire can be pre–positioned for the weld cycle.
Figure 3.1, DWF–3 FRONT PANEL
OM-179 078
3-1
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SECTION 3
OPERATION
Figure 3.2, DWF–3 REAR PANEL
START DELAY: Allows for a delay between the time a weld cycle is initiated and the time when wire feeding
begins; START DELAY is presettable in 0.1 second increments, from 0.0 to 9.9 seconds.
STOP DELAY: Allows for a delay between the time when a weld cycle is terminated and the time when wire
retracts then stops feeding. STOP DELAY allows for crater fill and is variable from 0 to 9.9 seconds in 0.1 sec–
intervals.
WIRE SPEED: Digital display that indicates WIRE SPEED in inches per minute, in 0.1 inch per minute
increments.
PUSH TO SET: Used in conjunction with the SPEED control to preset wire feed rate. Pressing this switch
while rotating the speed control allows the operator to preset the wire feed rate without actually feeding wire,
thereby eliminating waste of filler wire.
SPEED CONTROL: When in the STANDARD position, wire speed is controlled by the SPEED potentiometer
located directly under the digital display on the control panel. When in the REMOTE position, wire speed is
controlled by a REMOTE signal.
3.3 SEQUENCE OF OPERATION
After the DWF–3 has been installed, make sure all cables and connectors are properly mated. Check the line
voltage selector switch on the rear panel to ensure it is set at the proper position to match the line voltage being
used. The MANUAL/REMOTE switch should be in the OFF position. Back off thumbscrew on the drive unit to
allow introduction of wire between drive rolls. Turn the power switch ON. The POWER indicator should
illuminate and the digital display should read all zeros. Adjust thumbscrew to provide contact on wire. Activate
the FORWARD Jog Switch and “guide” the filler wire into the wire drive entrance guide. The rollers will ”pick
up” the wire and begin feeding. Continue feeding the wire FORWARD until the wire is in position at the end of
the guide tip. Use JOG FORWARD/REVERSE to adjust position.
Select the desired amount of START DELAY by setting the thumbwheel switches to the appropriate value. Do
the same for STOP DELAY or FEED TIME as applicable. Next, select the WIRE SPEED by pressing the
PUSH TO SET button. While holding this button in, rotate the SPEED knob until the desired WIRE SPEED is
OM-179 078
3-2
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SECTION 3
OPERATION
indicated on the digital display; set the SPEED CONTROL selector switch to the STANDARD position.
Positioning the MANUAL START/REMOTE START switch to the MANUAL START position will now initiate a
wire feed cycle.
The digital display will blink during START DELAY time. At the end of START DELAY, wire will begin to feed
and the speed will be indicated on the display. Re–setting the MANUAL START switch to OFF will initiate the
end of a wire feed cycle for the DWF–3. After STOP DELAY times out, the motor on the wire drive unit will
reverse and retract the filler wire from the weld puddle; after the retract time, wire will stop feeding and the
cycle is complete.
3.4 REMOTE SIGNALS
The DWF–3 control unit has the capability of being controlled from a remote location. Seven signals are
available as described in Table 2.2 as well as the following paragraphs.
Electrical connections are made as shown in Figures 3.3, 3.4 and 3.5. A prewired connector and cable is
available from the factory (P/N 179 167) .
REMOTE START is implemented by applying a signal between pin C and F. Pin C is the positive terminal and
pin F is the negative terminal. This signal should be 5–24 VDC. The cycle will remain active as long as the
signal is applied. The cycle terminates when the signal is removed.
The INHIBIT FUNCTION is implemented by applying a signal to pins E and G; pin E is positive and pin G is
negative. This signal should be 5–24 VDC. When the inhibit signal is applied, the wire feed is interrupted, but
the cycle is not affected at its point in the cycle. When the inhibit signal is removed, the wire feed will continue.
This feature is helpful for manual override or a pulse synchronization of wire to a pulsing power source.
REMOTE JOG FORWARD/REVERSE is implemented by the use of a SPDT switch. The center pole is
connected to pin D. The forward pole is connected to pin L and the reverse pole is connected to pin K. This
switch is now wired in parallel with the Jog switch on the front panel, and functions in the same manner.
REMOTE WIRE SPEED control is implemented in much the same way. A 10K 1/2W potentiometer is
connected with its wiper (center pole) on pin N. The plus reference voltage pole is connected to pin M and the
minus or ground pole is connected to pin A. This pot is now selected by switching the speed control switch on
the front panel (lower right corner of wire speed area) to the REMOTE position. Wire speed is now determined
by setting this pot. The wire speed may also be controlled by a 0 to 1.235 volt signal (pin N to pin A which
corresponds to 0 to 300 inch per minute wire speed).
REMOTE START DELAY signal is an output that signals when the system is in the DELAY timing mode. When
the START DELAY times out, the signal is removed. This signal is 24 VDC 500 mA max current. It may be
used to light a remote indicator lamp or energize a relay coil. The signal connects to pin I of the remote
connector; return is ground (pin D).
REMOTE AUTO FEED signal is an output that signals when the system is feeding wire automatically at the
selected rate. Its output characteristics are the same as the remote start delay signal. The signal is on pin J at
the remote connector; return is ground (pin D).
MOTOR PULSE signal is an output that signals each step of the feed motor. This signal is a 24V, 18 sec wide
pulse with a 10K source resistance. It may be used for a tachometer output of wire length output. Each pulse
represents 0.0116 inches of wire feed. The signal is on pin H; return is ground (pin D).
OM-179 078
3-3
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SECTION 3
OPERATION
Figure 3.3, REMOTE WIRING CABLE
The remote start function requires a signal of +5 to 24 VDC. This signal is applied to pin C of J3. The common
is from the DWF–3 (this signal is optically isolated from the DWF–3); therefore, the signal common need not
be attached to the control unit ground. This signal would normally come through the normally open contacts of
a relay that is activated at the start of a weld cycle, for example, the Seam Tracker interface relay.
The inhibit function requires a signal of +5 to 24 VDC applied to pin E of J3, and common connected to pin G of
J3. The inhibit signals are optically isolated from the DWF–3 control unit, and the common need not be
connected to the control unit ground.
Figure 3.4, REMOTE START WIRING
OM-179 078
3-4
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SECTION 3
OPERATION
Figure 3.5, INHIBIT FUNCTION WIRING
OM-179 078
3-5
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SECTION 4
MAINTENANCE AND REPAIR
4.1 MAINTENANCE REQUIREMENTS
The DWF–3 wire feed system has no special scheduled maintenance requirements. However, periodic
inspection of control and wire drive are helpful in preventing equipment failures. Replace any worn or broken
parts found. Periodic dust and oil removal from both the control and drive is recommended.
4.2 GENERAL PRECAUTIONS
Figure 4.1 shows a control unit for the DWF–3 system. Assemblies and parts which are authorized for user
replacement are listed in Table 4.1. Should the user experience a problem and determine the defective part
(see TROUBLESHOOTING, Section 4.5), the suggested repair procedure is to remove and replace the
defective part.
CAUTION
WHEN INSPECTING OR REPAIRING THE CONTROL UNIT ASSEMBLY, DISCONNECT AC POWER
FROM THE UNIT BEFORE REMOVING THE COVER TO PREVENT ELECTRICAL SHOCK.
4.3 CONTROL UNIT CALIBRATION
The control unit has been calibrated and fully tested before leaving the factory. It is unlikely that it would
require adjustment; however, if the need for recalibration arises, there are three adjustments that can be
made that affect wire speed and delay time accuracy. The only test equipment required is a good quality
frequency counter of known accuracy. Two adjustments, R2 and R7 on Controller/Driver circuit board affect
wire speed accuracy. Perform the following steps to calibrate the control unit.
A)
B)
Connect the frequency counter to TP14.
Rotate the speed control knob on the front panel to its minimum speed setting, i.e., fully
counterclockwise.
C)
D)
Adjust R7 until the frequency counter indicates zero.
Repeat Steps B and C. There is only one adjustment to be made on the time base osc. – R10; it sets the
start and stop delay accuracy and the wire speed readout accuracy.
E)
Connect the frequency counter to TP2, and adjust R10 for a reading of 2560 Hz ± 1 Hz.
NOTE: REPEAT STEPS B THROUGH E IF THE ADJUSTMENT ON R10 IS CHANGED.
TABLE 4.1 PARTS LIST FOR CONTROL UNIT
ITEM
QTY
PART NMBR
DESCRIPTION
CHASSIS ASSEMBLY
1
2
3
4
5
6
7
1
1
1
1
1
1
1
179 186
179 188
PWB DWF–3 CONTROLLER/DRIVER
PWB DWF–3 DISPLAY AND DRIVER
TRANSFORMER ASSY, DWF–3
179 189
–
–
–
–
ASSY, THUMBWHEEL SWITCH
ASSY, THUMBWHEEL SWITCH
CABLE ASSY, DWF–3 INTERNAL INTERFACE
OM-179 078
4-1
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SECTION 4
MAINTENANCE AND REPAIR
8
1
1
1
1
1
1
1
1
1
1
1
–
CABLE ASSY, DWF–3 DRIVE INTERFACE
SWITCH, JOG FWD/REV OR 120/240 VOLT
CIRCUIT BREAKER ETA TYPE, 1 AMP
SWITCH, JOG FWD/REV
9
–
10
11
12
13
14
15
16
17
18
179 140
179 098
179 097
SWITCH, SPEED CONTROL STAND/REMOTE
POT 10K, 10 TURN SPEED CONTROL
SWITCH, MOMENTARY PRESS TO SET
SWITCH, REMOTE START/MANUAL START
SWITCH, POWER ON/OFF
–
–
–
–
179 107
–
LAMP POWER ON INDICATOR
RFI FILTER AC INPUT LINE
Figure 4.1, CONTROL UNIT ASSEMBLY
OM-179 078
4-2
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SECTION 4
MAINTENANCE AND REPAIR
4.4 DRIVE UNIT ASSEMBLY
Figure 4.2 shows an exploded view of the drive unit; user replaceable parts are listed in Table 4.2.
4.5 TROUBLESHOOTING
WARNING
LINE VOLTAGE IS EXPOSED INSIDE THE CONTROL UNIT. TAKE PRECAUTION TO AVOID ELECTRIC
SHOCK WHEN COVER IS REMOVED.
The TROUBLESHOOTING section of this manual is not intended to be a step–by–step guide to problem
solving of all possible failure modes. It is intended to point the way to areas which are most likely to cause
difficulties. All repairs should be referred to a qualified technician.
Refer to Figure 5.1 (DWF–3 schematic) and also Figure 4.1 to aid in locating components and test points.
The CIRCUIT DESCRIPTION section (5.1 – 5.4) of this manual should prove helpful in isolating problems.
Some possible trouble areas may be verified by following the repair steps indicated below and on the following
pages.
TROUBLE INDICATION
REPAIR STEPS
Power ON lamp does not light. Verify that power cord is plugged in and circuit breaker is reset.
Verify that all plugs are installed in the circuit board.
Check +20 V (TP 9 on Controller/Driver circuit board). Replace board if
necessary.
Check lamp; replace if necessary.
Digital display does not light.
Verify that power cord is plugged in and circuit breaker is reset.
Verify that all plugs are installed in the circuit board.
Check +20 V (TP 9 on Controller/Driver circuit board). Replace board if
necessary.
Check +5 V (TP 12 on Controller/Driver circuit board). Replace board if
necessary.
Replace digital display board.
Incorrect START/STOP de-
lays.
Verify that all plugs are installed in the circuit board.
Recalibrate (see Section 4.3).
Replace thumbwheel assembly or circuit board.
Feed cycle does not start.
Incorrect wire feed speed.
Verify that MANUAL START/OFF/REMOTE switch is in correct posi-
tion.
Verify that all plugs are installed in the circuit board.
Replace circuit board.
Verify that SPEED CONTROL switch is in correct position.
Verify that all plugs are installed in the circuit board.
Recalibrate (see Section 4.3).
OM-179 078
4-3
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SECTION 4
MAINTENANCE AND REPAIR
TROUBLE INDICATION
Incorrect wire feed speed.
REPAIR STEPS
Check input signal (TP15 on Controller/Driver circuit board). Replace
speed pot or circuit board if necessary.
Verify that thumbscrew is fully seated. Exception: Back off one full turn
when using .020 in diameter wire.
Verify that correct drive rolls for wire diameter are installed (see Table
1.1).
Check roller surface; if excessively worn, slip of urethane wheels and
replace.
Motor turns but wire does not Verify that drive unit is connected to control.
feed.
Verify that all plugs are installed in the circuit board.
Check motor and cable continuity. It should be about 1.5 ohms from
pin A, D, E, and C referenced to pin B on motor connector. Repair or
replace if necessary.
Check motor current (speed less than 10 ipm = 80 to 110 mV between
TP7 and TP8. See Figure 4.2) Replace circuit board if necessary.
Loosen feed tension adjustment knob completely. Verify wire runs
smoothly off wire reel and through guides and conduit.
Verify thumbscrew is properly adjusted. Exception: Back off one full
turn when using .020 in diameter wire.
Verify correct drive rolls for wire diameter (see Table 1.1).
Check roller surface; if excessively worn, slip off urethane wheels and
replace.
TABLE 4.2 PARTS LIST FOR DRIVE ASSEMBLY
ITEM
1
QTY
1
PART NMBR
DESCRIPTION
BOGIE ASSEMBLY, DWF–3
DRIVE MOTOR ASSEMBLY, DWF–3
COVER ASSEMBLY, DRIVE DWF–3
URETHANE ROLLER ASSEMBLY
HOUSING, WIRE FEEDER
RETAINER, DRIVE GEAR
BUSHING, GEAR SHAFT
SHAFT, BOGIE
179 168
2
1
179 169
3
1
–
4
2
179 170
5
1
–
6
1
–
7
2
179 171
8
2
179 172
9
1
179 173
GUIDE, WIRE – EXIT
10
11
12
13
14
15
16
17
1
179 174
GUIDE, WIRE – INLET
1
179 175
KNOB, SCREW
1
–
CLAMP, BACKSHELL
1
–
CONNECTOR, CIRCULAR STR PLUG
TUBING SHRINK, BLACK
SPRING COMPRESSION
STRAIN RELIEF – PLASTIC
TUBING SHRINK – BLACK
A/R
1
–
179 176
2
–
–
A/R
OM-179 078
4-4
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SECTION 4
MAINTENANCE AND REPAIR
18
20
21
22
23
24
25
29
30
31
32
33
34
A/R
4
–
–
–
–
–
–
–
–
–
–
–
–
–
TUBING SHRINK – BLACK
SCREW SCH HEX 10–24 X .375
SCREW CONE PT. 10–24 X .50
SCREW PANHD PHIL 6–32 X 3/8
SPACER, BEARING 0.020 THICK
SPACER, BEARING 0.032 THICK
CABLE, 6 COND 22 AWG
2
2
2
2
8
1
GUIDE, WIRE EXIT
1
NAMEPLATE–DIGITAL CONTROL
DRIVE MOTOR ASSEMBLY H.D. 0.094W
BOGIE ASSEMBLY DWF–3 0.094W
URETHANE ROLLER ASSEMBLY 0.094W
GUIDE, WIRE EXIT 0.094W
1
1
1
1
Figure 4.2, DWF–3 DRIVE ASSEMBLY EXPLODED VIEW
OM-179 078
4-5
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SECTION 4
MAINTENANCE AND REPAIR
The standard setting for the DWF–3 is 0.512 in. However, the following lengths may be obtained by inserting
jumpers from P1, P2, P3, and P4 on the U12 IC Circuit to +12V and ground as shown:
TABLE 4.3 AVAILABLE RETRACT LENGTHS
LENGTH DESIRED
JUMPER CONNECTION TO +12 V AND GROUND FROM:
INCHES
MM
P1
P2
P3
P4
0.085
0.170
0.256
0.341
0.427
0.512*
0.597
0.683
0.768
0.853
0.939
1.024
1.109
1.195
1.280
2.15
+12
GND
+12
GND
GND
GND
+12
GND
GND
GND
GND
GND
GND
GND
+12
4.32
GND
+12
6.50
+12
8.67
GND
+12
GND
GND
+12
10.86
13.00
15.16
17.35
19.51
21.67
23.85
26.00
28.17
30.35
32.51
+12
GND
+12
+12
+12
+12
GND
+12
GND
GND
+12
GND
GND
GND
GND
+12
+12
GND
+12
+12
+12
+12
GND
+12
GND
GND
+12
+12
+12
+12
GND
+12
+12
+12
+12
+12
+12
*Standard
OM-179 078
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SECTION 5
CIRCUIT DESCRIPTION
NOTE
REFER TO FIGURE 5.1 ”SCHEMATIC DIAGRAM OF DWF–3 CONTROL UNIT”.
5.1 SPEED CONTROL CIRCUITS
There are two speed control circuits in the DWF–3 control unit. One is for the Jog and Retract functions, and is
a preset speed. The other is for wire feed during the weld cycle and this speed is variable.
Variable speed motor pulses originate at U1, a voltage controlled oscillator. The output at pin 14 is a square
wave whose frequency is determined primarily by the setting of R1 (the speed control pot) located on the front
panel. The upper and lower frequency limits of this oscillator are set by pots R2 and R7 respectively. When the
proper logic conditions exist in the gating circuits, this signal is sent through U2 to U3 where it is divided by 70.
Each one of 70 pulses is then sent to U4 where it is squared up and routed to U22, which in conjunction with
U23 generates the four separate phases for the motor in the wire drive unit.
Fixed speed motor pulses, as required for the Jog and Retract functions are generated at U5. This is referred
to as the time base osc. and operates at a fixed frequency. When selected by the proper logic via the same
route as the variable pulses described in the preceding paragraph. The basic frequency of this osc. is 10240
Hz; and this results in a fixed motor speed that feeds wire at 102.4 inches per minute (2601 mm/min).
5.2 DELAY TIMER CIRCUITS
Start delay timers U8 and U9 are presettable counters with thumbwheel switches connected to their Jam
inputs. These inputs are weighted 1, 2, 4 and 8; and by selecting a number on the thumbwheel switch, this
BCD value is present at the Jam inputs. A 10Hz clock signal from U6 is applied to the clock inputs (PIN 15) of
each counter. When either a manual or remote signal is applied to the control unit to start a cycle, U14 pin 8
goes to a logic low level. This low is applied to count clock pulses. Assume that 3.6 seconds has been selected
on the thumbwheel switch for a start delay time. When the sixth clock pulse appears at U9, its CO goes low,
enabling U8 at CI, pin 5. When coincidence is detected by internal comparators, U8 CO at pin 7 goes low and
this signal is gated through U13, U21 and U18 to produce the auto feed time signal which allows motor pulses
to reach the motor.
Stop delay operates in much the same manner, except it is initiated by the removal of the manual or remote
start cycle signal. Its delay time is used to hold the auto feed time signal on until its delay period has timed out.
5.3 DIGITAL DISPLAY CIRCUIT
The wire speed indicator is a digital display composed of four LED’s and an IC (U1) that contains four
counters, latches, decoders and drivers. It also contains its own osc. that drives its internal multiplexing
circuits. The blink during start delay is implemented by U18, Q14 and Q13. After start delay has timed out, U18
pin 10 remains Hi; and through Q13 a ground is provided for the transistors on the display board.
5.4 MOTOR POWER SUPPLY CIRCUIT
The motor power supply circuit is composed of two main sections. U20 is an oscillator which, through U24, U7
and UJ21 drives Q1 and Q2 in a chopper configuration. This chopped DC is then rectified by diodes CR7,
CR8, CR9, and CR10 into the positive and negative voltages which serve as the supply for Q3, Q4, Q5, and
Q6. The four phases required for the separate motor windings are generated by U22 and U23. Transistors Q8,
Q9, Q10, and Q11 are drivers for transistors Q3 through Q6. This circuit arrangement results in one motor
winding being energized at all times; this serves as a brake while wire is not being fed.
OM-179 078
5-1
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SECTION 5
CIRCUIT DESCRIPTION
Figure 5.1, SCHEMATIC DIAGRAM OF DWF–3 CONTROL UNIT
OM-179 078
5-2
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SECTION 5
CIRCUIT DESCRIPTION
Figure 5.1, SCHEMATIC DIAGRAM OF DWF–3 CONTROL UNIT (Continued)
OM-179 078
5-3
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SECTION 5
CIRCUIT DESCRIPTION
OM-179 078
5-4
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SECTION 5
CIRCUIT DESCRIPTION
Figure 5.1, SCHEMATIC DIAGRAM OF DWF–3 CONTROL UNIT (Continued)
OM-179 078
5-5
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SECTION 5
CIRCUIT DESCRIPTION
1078–0012
Figure 5.2, DIGITAL DISPLAY AND DRIVER SCHEMATIC
OM-179 078
5-6
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Notes
OM-2218 Page 7
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Effective January 1, 2000
(Equipment with a serial number preface of “LA” or newer)
This limited warranty supersedes all previous Miller warranties and is exclusive with no other
guarantees or warranties expressed or implied.
Warranty Questions?
LIMITED WARRANTY – Subject to the terms and conditions
below, Miller Electric Mfg. Co., Appleton, Wisconsin, warrants
to its original retail purchaser that new Miller equipment sold
after the effective date of this limited warranty is free of defects
in material and workmanship at the time it is shipped by Miller.
THIS WARRANTY IS EXPRESSLY IN LIEU OF ALL OTHER
WARRANTIES, EXPRESS OR IMPLIED, INCLUDING THE
WARRANTIES OF MERCHANTABILITY AND FITNESS.
*
APT, ZIPCUT & PLAZCUT Model Plasma Cutting
Torches
Call
1-800-4-A-MILLER
for your local
Miller distributor.
*
*
*
*
*
Remote Controls
Accessory Kits
Replacement Parts (No labor)
Spoolmate 185 & Spoolmate 250
Canvas Covers
Within the warranty periods listed below, Miller will repair or
replace any warranted parts or components that fail due to
such defects in material or workmanship. Miller must be
notified in writing within thirty (30) days of such defect or
failure, at which time Miller will provide instructions on the
warranty claim procedures to be followed.
Your distributor also gives
you ...
Miller’s True Blue Limited Warranty shall not apply to:
1. Consumable components; such as contact tips,
cutting nozzles, contactors, brushes, slip rings,
relays or parts that fail due to normal wear.
Service
You always get the fast,
reliable response you
need. Most replacement
parts can be in your
hands in 24 hours.
Miller shall honor warranty claims on warranted equipment
listed below in the event of such a failure within the warranty
time periods. All warranty time periods start on the date that
the equipment was delivered to the original retail purchaser, or
one year after the equipment is sent to a North American
distributor or eighteen months after the equipment is sent to an
International distributor.
2. Items furnished by Miller, but manufactured by others,
such as engines or trade accessories. These items are
covered by the manufacturer’s warranty, if any.
Support
3. Equipment that has been modified by any party other
than Miller, or equipment that has been improperly
installed, improperly operated or misused based upon
industry standards, or equipment which has not had
reasonable and necessary maintenance, or equipment
which has been used for operation outside of the
specifications for the equipment.
Need fast answers to the
tough welding questions?
Contact your distributor.
The expertise of the
distributor and Miller is
there to help you, every
step of the way.
1. 5 Years Parts – 3 Years Labor
*
*
Original main power rectifiers
Inverters (input and output rectifiers only)
MILLER PRODUCTS ARE INTENDED FOR PURCHASE
AND USE BY COMMERCIAL/INDUSTRIAL USERS AND
PERSONS TRAINED AND EXPERIENCED IN THE USE
AND MAINTENANCE OF WELDING EQUIPMENT.
2. 3 Years — Parts and Labor
*
*
*
*
*
*
Transformer/Rectifier Power Sources
Plasma Arc Cutting Power Sources
Semi-Automatic and Automatic Wire Feeders
Inverter Power Supplies
In the event of a warranty claim covered by this warranty, the
exclusive remedies shall be, at Miller’s option: (1) repair; or (2)
replacement; or, where authorized in writing by Miller in
appropriate cases, (3) the reasonable cost of repair or
replacement at an authorized Miller service station; or (4)
payment of or credit for the purchase price (less reasonable
depreciation based upon actual use) upon return of the goods
at customer’s risk and expense. Miller’s option of repair or
replacement will be F.O.B., Factory at Appleton, Wisconsin, or
F.O.B. at a Miller authorized service facility as determined by
Miller. Therefore no compensation or reimbursement for
transportation costs of any kind will be allowed.
Intellitig
Engine Driven Welding Generators
(NOTE: Engines are warranted separately by
the engine manufacturer.)
3. 1 Year — Parts and Labor
*
*
DS-2 Wire Feeder
Motor Driven Guns (w/exception of Spoolmate
185 & Spoolmate 250)
TO THE EXTENT PERMITTED BY LAW, THE REMEDIES
PROVIDED HEREIN ARE THE SOLE AND EXCLUSIVE
REMEDIES. IN NO EVENT SHALL MILLER BE LIABLE FOR
DIRECT, INDIRECT, SPECIAL, INCIDENTAL OR
CONSEQUENTIAL DAMAGES (INCLUDING LOSS OF
PROFIT), WHETHER BASED ON CONTRACT, TORT OR
ANY OTHER LEGAL THEORY.
*
*
*
*
*
*
*
*
*
*
*
*
*
*
Process Controllers
Positioners and Controllers
Automatic Motion Devices
RFCS Foot Controls
Induction Heating Power Sources
Water Coolant Systems
HF Units
ANY EXPRESS WARRANTY NOT PROVIDED HEREIN
AND ANY IMPLIED WARRANTY, GUARANTY OR
REPRESENTATION AS TO PERFORMANCE, AND ANY
REMEDY FOR BREACH OF CONTRACT TORT OR ANY
OTHER LEGAL THEORY WHICH, BUT FOR THIS
Grids
Maxstar 140
PROVISION,
MIGHT
ARISE
BY
IMPLICATION,
Spot Welders
OPERATION OF LAW, CUSTOM OF TRADE OR COURSE
OF DEALING, INCLUDING ANY IMPLIED WARRANTY OF
MERCHANTABILITY OR FITNESS FOR PARTICULAR
PURPOSE, WITH RESPECT TO ANY AND ALL
EQUIPMENT FURNISHED BY MILLER IS EXCLUDED AND
DISCLAIMED BY MILLER.
Load Banks
Miller Cyclomatic Equipment
Running Gear/Trailers
Plasma Cutting Torches (except APT & SAF
Models)
Some states in the U.S.A. do not allow limitations of how long
an implied warranty lasts, or the exclusion of incidental,
indirect, special or consequential damages, so the above
limitation or exclusion may not apply to you. This warranty
provides specific legal rights, and other rights may be
available, but may vary from state to state.
*
Field Options
(NOTE: Field options are covered under True
Blue for the remaining warranty period of the
product they are installed in, or for a minimum of
one year — whichever is greater.)
In Canada, legislation in some provinces provides for certain
additional warranties or remedies other than as stated herein,
and to the extent that they may not be waived, the limitations
and exclusions set out above may not apply. This Limited
Warranty provides specific legal rights, and other rights may
be available, but may vary from province to province.
4. 6 Months — Batteries
5. 90 Days — Parts
*
*
MIG Guns/TIG Torches
Induction Heating Coils and Blankets
miller_warr 7/00
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Owner’s Record
Please complete and retain with your personal records.
Model Name
Purchase Date
Distributor
Address
Serial/Style Number
(Date which equipment was delivered to original customer.)
City
State
Zip
For Service
to locate a DISTRIBUTOR or SERVICE AGENCY near you.
Always provide Model Name and Serial/Style Number.
Contact your Distributor for:
Welding Supplies and Consumables
Options and Accessories
Personal Safety Equipment
Service and Repair
Miller Electric Mfg. Co.
An Illinois Tool Works Company
1635 West Spencer Street
Appleton, WI 54914 USA
Replacement Parts
Training (Schools, Videos, Books)
International Headquarters–USA
USA Phone: 920-735-4505 Auto-Attended
USA & Canada FAX: 920-735-4134
International FAX: 920-735-4125
Technical Manuals (Servicing Information
and Parts)
Circuit Diagrams
European Headquarters –
United Kingdom
Phone: 44 (0) 1204-593493
FAX: 44 (0) 1204-598066
Welding Process Handbooks
Contact the Delivering Carrier for:
File a claim for loss or damage during
shipment.
For assistance in filing or settling claims,
contact your distributor and/or equipment
manufacturer’s Transportation Department.
PRINTED IN USA
2000 Miller Electric Mfg. Co. 6/00
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