Miller HJ171707 Owner's manual

Brand: Miller

Model: HJ171707

Category: Welding System

Type: Owner's manual

This manual is also suitable for

January

1979

FORM:

OM-1234A

Effective

With

Serial

No.

HJ171707

MODEL

MILLERMATIC

3OAN

CONTROL/FEEDER

OWN

ERS

MANUAL

rAllIER

MILLER

ELECTRIC

MFG.

CO.

718

BOUNDS

ST.

P.O.

Box

1079

APPLETON,

54912

USA

ADDITIONAL

COPY

PRICE

CENTS

NWSA

CODE

NO.

4579

PRINTED

U.S.A.

LIMITED

WARRANTY

EFFECTIVE:

FEBRUARY

20,

1978

This

warranty

supersedes

all

MILLER

warranties

and

clusive

with

other

guarantees

warranties

expressed

implied.

LIMITED

WARRANTYMiller

Electric

Mfg.

Co.,

Apple-

Arc

welders,

power

sources,

and

components.

year

ton,

Wisconsin

warrants

Customer

that

all

rrew

and

unused

Original

main

power

rectifiers

years

Equipment

furnished

Miller

free

from

defect

(Labor



year

only)

workmanship

and

material

the

time

and

place

All

welding

guns

and

feeder/guns

days

delivery

Miller.

warranty

made

Miller

with

respect

engines,

trade

accessories

other items

manu-

All

other

Millermatic

Feeders

year

factured

others.

Such

engines,

trade

accessories

and

other

provided

that

the

user

notifies

Miller

writing

within

thirty

items

are

sold

subject

the

warranties

their

respective

(30)

days

the

date

such

failure.

manufacturers,

any.

The

manufacturers

warranty

Replacement

repair

parts

exclusive

labor

days

engines

for

period

one

year.

MILLER

warranty

does

not

apply

components

having

ANY

EXPRESS

WARRANTY

NOT

PROVIDED

normal

useful

life

less

than

one

(1)

year,

such

spot

HEREIN

AND

ANY

IMPLIED

WARRANTY,

GUARANTY

welder

tips,

relay

and

contactor

points,

MILLERMATIC

REPRESENTATION

PERFORMANCE,

AND

parts

that

come

contact

with

the

welding

wire

including

ANY

REMEDY

FOR

BREACH

CONTRACT

WHICH,

nozzles

and

nozzle

insulators

where

failure

does

not

result

BUT

FOR

THIS

PROVISION.

MIGHT

ARISE

from

defect

workmanship

material.

IMPLICATION.

OPERATION

LAW,

CUSTOM

TRADE

COURSE

DEALING,

INCLUDING

ANY

the

case

Millers

breach

warranty

any

other

duty

with

respect

the

quality

any

goods,

the

exclusive

IMPLIED

WARRANTY

MERCHANTABILITY

remedies

therefor

shall

be.

Millers

option,

(1)

repair

(2)

FITNESS

FOR

PARTICULAR

PURPOSE.

WITH

RESPECT

replacement

or.

where

authorized

writing

Miller

ANY

AND

ALL

EQUIPMENT

FURNISHED

appropriate

cases,

(3)

the

reasonable

cost

repair

MILLER

EXCLUDED

AND

DISCLAIMED

MILLER.

replacement

authorized

Miller

service

station

(4)

payment

credit

for

the

purchase

price

(less

reasonable

EXCEPT

EXPRESSLY

PROVIDED

MILLER

depreciation

based

upon

actual

use)

upon

return

the

goods

WRITING,

MILLER

PRODUCTS

ARE

INTENDED

FOR

Customers

risk

and

expense.

All

transactions

are

F.O.B.

ULTIMATE

PURCHASE

COMMERCIAL/INDUSTRIAL

Appleton,

Wisconsin.

Upon

receipt

notice

apparent

USERS

AND

FOR OPERATION

PERSONS

TRAINED

defect

failure,

Miller

shall

instruct

the

claimant

the

AND

EXPERIENCED

THE

USE

AND

MAINTENANCE

warranty

claim

procedures

followed.

WELDING

EQUIPMENT

AND

NOT,

FOR

CONSUMERS

matter

general

policy

only,

Miller

may

honor

CONSUMER

USE.

MILLER

WARRANTIES

NOT

original

users

warranty

claims

warranted

Equipment

EXTEND

TO,

AND

RESELLER

AUTHORIZED

the

event

failure

resulting

from

defect

within

the

following

periods

from

the

date

delivery

Equipment

EXTEND

MILLERS

WARRANTIES

TO,

ANY

the

original

user:

CONSUMER.

TABLE

CONTENTS

Section

No.

Page

No.

SECTION



INTRODUCTION

General

Receiving-Handing

Description

1-4.

Safety

SECTION

2

INSTALLATION

2-1.

Location

Drive

Motor

Shielding

Gas

Connections

Water

Connections

115

Volts

Connections

Contactor

Control

Connections

Switch

Control

Connections

Weld

Cable

Terminal

Speed

Change

Gears

2-10.

Wire

Guide

Drive

Roll

Installation

2-1

Spindle

Assembly

Installation

2-12.

Installation

Spool-Type

Wire

2-13.

Installation

Wire

Reel

2-14.

Installation

Reel-Type

Wire

2-15.

Adjusting

Hub

Tension

2-16.

Welding

Wire

Threading

SECTION

3

FUNCTION

CONTROLS

Power

Switch

Wire

Speed

Control

Remote

Control

Receptacle

Switch

Purge

Button

Inch

Switch

Start

Switch

Retract-Feed

Switch

Reset

Circuit

Breaker

SECTION



SEQUENCE

OPERATION

Gas

Metal-Arc

Welding

(GMAW)

Shutting

Down

SECTION



MAINTENANCE

Inspection

And

Upkeep

Cleaning

Drive

Roll

Bearings

5-3.

Fuse

SECTION

6

TROUBLESHOOTING

SECTION



DATA

CHARTS

SECTION

INTRODUCTION

Electrode

Wire

Dia.

Capability

Electrode

Wre

Feed

Speed



Control

Circuit

Voltage

Gun

Overall

Dimensions

(Inches)

Weight

(Pounds)

Net

Ship

.030

1/8

900

1pm.

Volts

Height

24-1/2

Width

-14-3/4

Depth

-34-1/4

Figure

1-1.

Specifications

GENERAL

This

manual

has

been

prepared

especially

for

use

familiar

izing

personnel

with

the

design,

installation,

operation,

main

tenance,

and

troubleshooting

this

equipment.

All

informa

tion

presented

herein

should

given

careful

consideration

assure

optimum

performance

this

equipment.

1-2.

RECEIVING-HANDING

Prior

installing

this

equipment,

clean

all

packing

material

from

around

the unit

and

carefully

inspect

for

any

damage

that

may

have

occurred

during

shipment.

Any

claims

for

loss

damage

that

may

have

occurred

transit

must

filed

the

purchaser

with

the

carrier.

copy

the

bill

lading

and

freight

bill

will

furnished

the

carrier

request

occasion

file

claim

arises.

When

requesting

information

concerning

this

equipment,

essential

that

Model

Description

and/or

Stock

Number

and

Serial

(or

Style)

Numbers

the

equipment

supplied.

DESCRIPTION

This

control/feeder

the

constant

wire

feed

speed

type

and

designed

used

conjunction

with

constant

potential

welding

power

source.

The

control/feeder

heavy

duty

wire

feeding

unit

combining

both

the

wire

feeder

and

the

control

compact

assembly.

contains

all

the

controls

and

equipment

needed

Supply

welding

wire

and

shielding

gas

the

welding

gun.

-4.

SAFETY

Before

the

equipment

put

into

operation,

the

safety

sec

tion

the

front

the

welding

power

source

welding

generator

manual

should be

read

completely.

This

will

help

avoid

possible

injury

due

misuse

improper

welding

applications.

The

following

definitions

apply

CAUTION,

IMPORTANT,

and

NOTE

blocks

found

throughout

this

manual:

~this

heading,

installation,

operating,

and

main-

tenance

procedures

practices

will

found

that

not

carefully

followed

may

create

hazard

per

sonnel.



rTA~I

Under

this

heading,

installation,

operating,

and

main

tenance

procedures

practices

will

found

that

not

carefully

followed

may

result

damage

equip

ment.

Under

this

heading,

explanatory

statements

will

found

that

need

special

emphasis

obtaIn

the

most

efficient

operation

the

equipment.

SECTION

INSTALLATION

2-1.

LOCATION

Refer

Figure

2-1

for

dimensional

information

the

control/feeder.

Lead

lengths

must

considered

when

installing

the

control/feeder.

the

welding

power

source

can

located

near

the

work

area,

the

control/feeder

can

usually

installed

top

the

welding

power

source.

Suitable

space

should

allowed

for

making

necessary

Connections.

DRIVE

MOTOR

(Figure

2-2)

The

red

stop,

which

inserted

into

the

hole

the

vented

oil

fill

plug.

must

removed

prior

operation

the

control/feeder.

See

Figure

2-2

for

the

location

the

red

stop.

The

oil

level

should

checked

before

the

unit

put

into

operation

and

periodically

thereafter.

check

oil

level

the

gear

housing,

remove

the

oil

level

plug

the

gear

housing.

Add

SAE

No.

oil,

necessary,

until

oil

runs

out

the

oil

level

hole.

Remove

Discard

Red

Stop

Prior

Opsratlon

AA-056

132-9A

Figure

2-2.

Vented

Oil

Plug

And

Oil

Level

Plug

TC-056

132-28

Figure

2-1

Control/Feeder

Dimensions

Levil

Plug

OM-1234

Page

-3.

SHIELDING

GAS

CONNECTIONS

(Figure

2-4)

Determine

the

distance

the

control/feeder

located

from

the

shielding

gas

supply,

and

connect

hose

from

the

regulator-flowmeter

the

gas

supply

the

gas

fitting

the

rear

the

control/feeder.

This

connection

has

right-hand

thread.

The

shielding

gas

hose

which

comes

from

the

gun

attached

the

gas

connector

the

front

panel

the

control/feeder.

This

connector

has

right-hand

thread.

-4.

WATER

CONNECTIONS

(Optional)

(Figure

3-1)

When

water-cooled

gun

used,

connect

hose

from

the

water

supply

the

WATER

fitting

the

rear

the

control/feeder.

This

fitting

has

left-hand

thread.

See

the

gun

Instruction

Martual

for

gun

control/feeder

connec

tions.

Route

the

return

water

where

desired.

connections.

When

the

switch

connected

across

this

recep

tacle

closed,

the

contactor

the

welding

power

source

will

energize,

shielding

gas

will

flow,

and

wire

will

begin

feed.

WELD

CABLE

TERMINAL

terminal

provided

the

base

the

control/feeder

serve

junction

point

for

joining

together

the

weld

cables

from

the

welding

power

source

and

the

gun.

IMPORTANT

Ensure

that

the

weld

cable

terminal

kept

clean

all

times.

Also

ensure

that

the

nut

this

terminal

secure.

either

one

the

above

conditions

not

met,

erratic

weld

current

may

result.

2-5.115

VOLTS

CONNECTIONS

(Figures2-3&2-4)

2-9.

SPEEDCHANGEGEARS

Since

the

con~ol/feeder

requires

115

volts

function,

necessary

make

power

cable

(16/3

recom

mended)

the

desired

length

with

suitable

plugs

each

end

(plug

control/feeder

supplied;

see

Figure

2-3).

After

attaching

the

plugs,

connect

the

power

cable

the

control/

feeder

(rear

panel;

insert,

and

rotate

clockwise),

and

connect

the

remaining

end

115

volts

ac,

Hertz

power

supply.

Figure

2-3.

115

Volts

Plug

Installation

2-6.

CONTACTOR

CONTROL

CONNECTIONS

(Figure

2-4)

necessary

make

contactor

control

cable

(16/2

recommended)

the

desired

length

with

suitable

plugs

each

end

(plug

control/feeder

supplied).

After

attaching

the

plugs,

connect

the

cable

the

control/feeder

(rear

panel;

insert,

and

rotate

clockwise),

and

connect

the

remaining

end

the

contactor

control

connection

point

the

welding

power

source.

Optional

Coolant

Input

Fitting

TA-009

758-A

Figure

2-4.

Rear

Panel

Connections

2-7.

SWITCH

CONTROL

CONNECTIONS

(Figure

3-1)

two-pole,

twistlock

receptacle

provided

the

front

panel

the

control/feeder

for

making

switch

control

varying

the

combinations

the

supplied

steel

and

nylon

speed

change

gears,

the

minimum

maximum

wire

feed

speed

range

the

control/feeder

can

attained.

The

control/feeder

shipped

with

the

tooth

nylon

gear

attached

the

motor

drive

shaft

and

the

tooth

steel

gear

attached

the

drive

assembly

thereby

supplying

wire

feed

speed

range

from

500

ipm.

Table

2-1

shows

the

various

gear

combinations

available,

and

the

wire

feed

speed

ranges

that

these

gear

combinations

will

yield.

~use

two

steel

gears

together

will

cause

weld

current

present

the

motor

and

control

assembly.

Also,

two

nylon

gears

should

not

used

together

two

nylon

gears

will

wear

rapidly.

Table

2-1.

Gear

Combinations

For

Various

Wire

Feed

Speed

Ranges

Motor

Gear

No.

Teeth

Drive

Gear

No.

Teeth

Mm.

Wire

Speed

Control

Setting

Max.

Wire

Speed

Control

Setting

Steel

Nylon

Steel

ipm

1pm

ipm

225

ipm

280

ipm

370

1pm

450

ipm

550

1pm

745

ipm

900

1pm

change

the

speed

change

gears,

proceed

follows:

Remove

the

cover

which

over

the

speed

change

gears.

Loosen

the

two

bolts

which

secure

the

drive

assembly

the

base,

and

slide

the

drive

assembly

Out

(away

from

the

motor).

IMPORTANT

The

control/feeder

uses

nylon

and

steel

gear

the

drive

train

between

the

drive

motor

and

the

wire

drive

rolls.

Proper

clearance

between

the

nylon

and

steel

gear

important.

The

proper

clearance

.007

inch.

This

approximately

the

same

thickness

two

sheets

standard

writing

paper.

The

easiest

way

obtain

the

proper

alignment

sure

that

the

motor

fastened

securely

the

base

plate.

Then

insert

piece

.007

thick

paper

(or

two

thicknesses

standard

writing

paper)

between

the

nylon

and

steel

gear,

check

the

alignment

the

gears

(the

two

gears

must

running

straight

line),

and

then

tighten

down

the

drive

roll

assembly,

this

proper

clearance

not

maintained

the

gears,

they

may

wear

severely,

bind,



cause

erratic

wire

feed,

break.

Ground

Terminal

(Green

Hex-Head

Screw)

LIne

Terminals

(Gold

Sliver

Round

Screws)

TA-056

179-10

Contactor

Control

Receptacle

Fuse

115

Volts

Receptacle

Shielding

Gas

Input

Fitting

Page

Using

1/8

inch

allen

wrench,

loosen

the

set

screw

the

gear

the

drive

assembly,

and

remove

the

gear.

Loosen

the

set

screw

the

gear

the

motor

drive

shaft,

and

remove

the

gear.

Slide

the

desired

gear

onto

the

drive

assembly,

and

tighten

the

set

screw

the

gear.

Slide

the

desired

gear

onto

the

motor

drive

shaft,

and

tighten

the

set

screw

the

gear.

Install

the

cover

over

the

speed

change

gears.

2-10.

WIRE

GUIDE

DRIVE

ROLL

INSTALLATION

(Figure

2-5)

Upon

initial

installation,

as a

result

wire

size

changes,

necessary

install

the

required

drive

rolls

and

wire

guides

accommodate

the

particular

wire

size.

Having

selected

the

desired

wire

size

and

parts,

proceed

follows:

Washer

Inlet

Drive

Securing

Screw

R

Intermediate

Guide

Roll

Securing

Screw

Bolt

Shipped

With

Gun

TB-056

276-B

Figure

2-5.

One-Piece

Drive

Roll

Assembly

Loosen

the

pressure

adjustment

wing

nuts,

and

pivot

the

pressure

adjustments

downward.

Remove

the four

drive

roll

securing

bolts

and

associated

washers

from

the

drive

shafts,

and

pull

off

the

drive

rolls.

Loosen

the

inlet,

intermediate,

and

outlet

guide

securing

screws,

and

remove

the

guides.

Install

the

desired

size

wire

guides,

and

temporarily

tighten

securing

screws.

NOTE

prevent

the

three

wire

guides

from

slipping,

ensure

that

the

flat

side

the

wire

guide

facing

the



securing

screw.

Slide

the

desired

size

drive

rolls

(gear

side

first)

onto

the

drive

shafts.

Secure

the

drive

rolls

place

installing

the

washers

and

bolts

which

were

removed

Step

Align

all

three

wire

guides

that

the

ends

the

guides

are

1/16

inch

away

from

the

drive

rolls.

Tighten

securing

screws.

Ensure

that

the

teeth

the

upper

drive

rolls

mesh

with

the

teeth

the

lower

drive

rolls,

and

pivot

the

pressure

adjustments

upward

until

the

washer

the

pressure

adjustments

seated

top

the

drive

roll

cover.

Tighten

the

pressure

adjustment

wing

nuts

just

enough

hold

the

pressure

adjustment

assemblies

place.

2-11.

SPINDLE

ASSEMBLY

INSTALLATION

(Figure

2-6)

Insert

spindle

support

shaft

(15)

into

the

desired

hole

spindle

support

(16).

The

hole

utilized

the

spindle

support

(16)

will

depend

the

size

the

wire

spool

being

used.

Secure

spindle

support

shaft

(15

with

cotter

(17).

Slide

the

following

items

onto

the

spindle

support

shaft

(15)

order

given:

Fiber

Washer

(14)

Flat

Washer

(13)

Hub

(12)

FIat

Washer

(8)

Fiber

Washer

(7)

Keyed

Washer

(6)

Spring

(5)

Flat

Washer

(4)

Rotate

hex

nut

(3)

onto

support

shaft

(15).

Hex

nut

(3)

should

rotated

only

until

slight

drag

felt

while

turning

hub

(12).

Proceed

install

welding

wire

according

the

applicable

Section:.

2.12

for

spool-type

wire;

and

2-13,

2-14

for

reel-type

wire.

456789

TD-056

132-0

Figure

2-6.

Hub

And

Reel

Installation

2-12.

INSTALLATION

SPOOL-TYPE

WIRE

(Figure

2-6)

Slide

the

spool

wire

onto

the

hub

that

the

wire

feeds

off

the

bottom

the

spool.

The

spool

turns

counterclockwise

direction.

Rotate

the

spool

until

the

hole

the

spool

aligns

with

the

hub.

Slide

the

spool

onto

the

hub

until

seats

against

the

back

flange

of the

hub.

Depress

the

two

spring-loaded

stops

(1)

the

retaining

ring

(2)

and

slide

the

retaining

ring

into

proper

position

the

hub

(12).

Release

the

two

stops

(1).

2-13.

INSTALLATION

WIRE

REEL

(Figure

2-6)

Slide

the wire

reel

(11)

onto

the

hub

(12).

Rotate

the

wire

reel

(11)

until

the

hub

guide

seated

the

reel

(11).

Depress

the

two

spring-loaded

stops

(1)

the

retaining

ring

(2)

and

slide

the

retaining

ring

(2)

into

proper

position

the

hub

(12).

Release

the

two

stops

(1).

2-14.

INSTALLATION

REEL-TYPE

WIRE

(Figure

2-6)

Loosen

the

four

wing

nuts

(9)

the

fingers

(10)

of the

wire

reel

(11).

Pull

the

four

fingers

(10)

out

until

they

can

rotated

toward

the

center

the

reel

(11).

OM-1234

Page

Install

the

wire

onto

the

reel

(11)

over

the

four

fingers

(10).

Ensure

that

the

wire

feeds

off

the

bottom

of the

reel

(11).

The

reel

(11)

turns

counterclockwise

direction.

Rotate

the

four

fingers

(10)

back

their

proper

position.

Tighten

the

four

wing

nuts

(9).

2-15.

ADJUSTING

HUB

TENSION

(Figure

2-6)

Check

hub

tension

slowly

pulling

wire

toward

the

feed

roll.

The

wire

should

unwind

freely,

but

the

hub

tension

should

sufficient

keep

the

wire

taut

and

prevent

backlash

when

the

control/feeder

shut

off.

adjustment

required,

loosen

tighten

the

hex

nut

(3)

the

end

the

spindle

support

shaft

(15)

accordingly.

2-16.

WELDING

WIRE

THREADING

Connect

the

gun

the

control/feeder

according

the

instructions

the

gun

Instruction

Manual.

Loosen

the

wing

nut

each

of the

drive

roll

pressure

adjustments,

pivot

adjustments

downward,

and

lift

the

pressure

gear

covers

upward.

Cut

off

any

portion

the

free

end

the

welding

wire

which

not

straight.

Feed

the

welding

wire

through

the

inlet

wire

guide

the

drive

roll

assembly.

Continue

feed

the

welding

wire

through

the

intermediate

and

outlet

wire

guides.

Pivot

the

pressure

gear

covers

downward

making

sure

the

teeth

the

upper

gears

mesh

with

lower

drive

gears.

The

welding

wire

must

also

the

grooves

the

upper

and

lower

drive

rolls.

Pivot

the

drive

roll

pressure

adjustments

upward

into

the

slot

the

pressure

gear

covers

making

sure

the

lower

flat

washer

above

the

pressure

gear

cover.

Turn

the

wing

nuts

the

drive

roll

pressure

covers

clockwise

direction

until

the

drive

rolls

are

tight

against

the

welding

wire.

not

overtighten.

Further

adjustment

can

made

after

the

welding

power

source

and

control/feeder

are

put

into

operation.

Energize

the

welding

power

source.

Place

the

control/feeder

POWER

switch

the

position.

10.

Depress

the

INCH

switch.

This

will

run

the

welding

wire

through

the

gun

without

placing

weld

current

the

welding

wire.

Release

the

INCH

switch

after

the

end

the

welding

wire

extends

approximately

one

inch

from

the

end

the

gun

tip.

Remote

Control

Switch

Remote

Control

Receptacle.

Switch

Control

Receptacle.

Pressure

Adjustment

Wing

Nuts

3-1.

POWER

SWITCH

(Figure

3-1)

SECTION

3.~.FUNCTION

CONTROLS

Figure

3-1.

Control/Feeder

Components

Placing

the

POWER

switch

the

control/feeder

the

TC-080

649

position

will

apply

115

volts

the

unit

and

thereby

place

operational

condition.

Placing

the

POWER

switch

the

OFF

position

will

shut

the

control/feeder

down.

Start

Optlonal

Water

(Coolant)

Output

Flttlng*

Wire

Speed

Cou

Circuit

Breaker

Switch

Cable

Terminal

Page

3-4.

PURGE

BUTTON

(Figure

3-1)

Placing

the

POWER

switch

the

~ition

does

not

remove

power

from

all

the

control/feeders

internal

circuitry.

Completely

terminate

all

electrical

power

the

control/feeder

by removing

the

115

volts

plug

from

its

power

supply,

and

ensure

that

machinery

lockout

procedures

have

been

employed

the

welding

power

sources

input

line

(see

Instruc

tion

Manual

welding

power

source)

before

attempt-



ing

any

inspection

work

inside

the

unit

WIRE

SPEED

CONTROL

(Figure

3-1)

The

WIRE

SPEED

control

provides

means

determining

the

rate

which

welding

wire

will

fed

into

the

weld.

Rotating

the

WIRE

SPEED

control

clockwise

direction

will

increase

the

rate

the

wire

feed.

When

the

WIRE

SPEED

control

set

wire

will

feed

the

slowest

speed;

when

set

100,

the

wire

will

feed

the

fastest

speed.

The

scale

which

surrounds

the

WIRE

SPEED

control

calibrated

increments

ten

ranging

from

100

percent.

Due

this

percentage

calibration,

should

noted

that

this

scale

being

used

select

wire

feed

speed

setting,

only

percentage

the

range

use

being

selected

and

not

actual

wire

feed

speed

rate.

3-3.

REMOTE

CONTROL

RECEPTACLE

SWITCH

(Figure

3-1)

The

wire

speed

may

also

adjusted

Remote

Control

(optional).

Connect

the

Remote

Control

plug

the

REMOTE

CONTROL

receptacle

the

front

panel

the

control/feeder,

and

position

the

REMOTE

CONTROL

switch

the

control/feeder

and

the

Remote

Control

unit

the

REMOTE

position.

desired

return

the

control

the

wire

speed

the

control/feeder,

place

the

REMOTE

CONTROL

switch

either

the

control/feeder

the

Remote

Control

the

STANDARD

position.

The

PURGE

button,

located

the

front

panel

the

control/feeder,

momentary

contact

switch.

This

switch

will

energize

the

gas

solenoid

and

purge

the

shielding

gas

line

the

gun.

The

PURGE

button

also

allows

the

shielding

gas

regulator

adjusted

without

energizing

the

welding

circuit.

INCH

SWITCH

(Figure

3-1)

The

INCH

switch,

located

the

front

panel

the

control/feeder,

spring-loaded

toggle

switch.

When

actuated

completes

the

circuit

the

motor

without

having

depress

the

gun

trigger

switch.

This

switch

will

permit

inching

the

wire

whatever

setting

the

WIRE

SPEED

control

at,

without

energizing

the

welding

cirucit

the

shielding

gas

valve.

START

SWITCH

(Figure

3-1)

The

START

switch

provides

the

capability

being

able

select

either

slow

wire

feed

speed

for

1/2

second

the

beginning

wire

feed,

the

wire

feed

speed

the

rate

set

the

WIRE

SPEED

control.

The

SLOW

position

the

START

switch

will

provide

the

1/2

second

slow

wire

feed,

and

the

FAST

position

will

provide

wire

feed

the

rate

set

the

WIRE

SPEED

control.

RETRACT-FEED

SWITCH

(Figure

3-1)

The

RETRACT-FEED

switch

will

determine

whether

the

wire

will

feed

out

the

gun

back

into

the

gun

when

the

gun

switch

closed.

The

RETRACT

position

will

cause

the

wire

back

into

the

gun,

and

the

FEED

position

will

cause

the

wire

feed

out

the

gun.

3-8.

RESET

CIRCUIT

BREAKER

(Figure

3-1)

circuit

breaker,

located

the

upper

portion

the

control/feeder

front

panel,

provides

protection

the

con

trol/feeder

motor.

the

event

the

motor

should

placed

overload

condition,

the

breaker

would

trip

and

suspend

elI

output.

Should

this

breaker

trip,

the

RESET

button

would

have

manually

depressed

reset

the

circuit

breaker.

Make

all

connections

instructed

Section

Place

the

RETRACT-FEED

switch

the

FEED

position.

Place

the

START

switch

the

desired

position.

Rotate

the

WIRE

SPEED

control

the

desired

setting.

Remote

Wire

Speed

Control

not

used,

place

the

REMOTE

CONTROL

switch

the

STANDARD

position.

Remote

Wire

Speed

Con

trol

used,

place

both

the

REMOTE

CONTROL

switch

the

Remote

Wire

Speed

Control

and

the

control/feeder

the

REMOTE

position.

welding,

impera!

that

roper

tect

ive

clothing

(welding

coat

and

gloves)

and

eye

protection

(glasses

and/or

welding

helmet)

put

on.

Failure

comply

may

result

serious

permanent

bodily

damage.

Place

the

POWER

switch

the

control/feeder

the

position.

Depress

the

PURGE

button

for

one

minute.

Energize

the

welding

power

source.

Hold

the

tip

the

gun

approximately

1/2

inch

from~

the

workpiece.

10.

Depress

the

trigger

the

gun

handle.

Gas

and

water

will

start

flow,

and

wire

will

start

feed

drive

roll

pressure

properly

adjusted

prevent

slippage.

wire

slippage

noticed,

tighten

the

drive

roll

pressure

adjustment

wing

nuts

1/2

turn

clockwise.

Repeat

until

slippage

stops.

not

tighten

wing

nuts

too

much.

CAUTION



The

welding

wire

and

all

metal

parts

contact

with

are

energized

while

welding.

not

touch

the

welding

wire

any

metal

part

making

contact

with

it.

4-2.

SHUTTING

DOWN

Turn

off

the

shielding

gas

and

water

the

source.

Place

the

POWER

switch

the

control/feeder

the

OFF

position,

and

remove

the

115

Volts

plug

from

the

source.

Turn

off

all

associated

equipment.

~ding

performed

confined~

failure

turn

off

the

shielding

gas

supply

could

result

buildup

gas

fumes,

thereby

endangering

personnel



reentering

the

welding

area.

SECTION

SEQUENCE

OPERATION

GAS

METAL-ARC

WELDING

(GMAW)

OM-t234Page5

INSPECTION

AND

UPKEEP

Usage

and

shop

conditions

will

determine

the

frequency

and

type

maintenance.

Inspect

equipment

follows:

Make

sure

welding

power

source

shutdown.

Inspect

gun

for

broken

areas,

cracks

and

loose

parts:

tighten,

repair,

and

replace

required.

Carefully

remove

any

weld

spatter

foreign

matter

which

may

accumulate

around

the

nozzle

orifice.

Use

hardwood

stick,

never

metal

tool.

Repair

replace,

required,

all

hose

and

cable;

give

particular

attention

frayed

and

cracked

insulation

and

areas

where

enters

equipment.

Remove

grease

and

grime

from

components;

moisture

from

electrical

parts

and

cable.

Blow

out

the

gun

wire

guide

liner

with

compressed

air

when

changing

wire.

This

will

remove

any

metal

chips

and

dirt

that

may

have

accumulated.

-2.

CLEANING

DRIVE

ROLL

BEARINGS

Occassionally

will

become

necessary

clean

and

oil

the

oilite

bearings

which

are

pressed

into

the

four

drive

rolls.

This

cleaning

operation

should be

performed

whenever

the

oilite

bearings

appear

dirty

and

grimy.

clean

and

oil

these

bearings

will

necessary

first

remove

the

four

drive

roll

gears.

(See

Section

2-10

for

removal

and

installation

instructions.)

Once

removed,

use

clean

rag

wipe

the

bearings

clean.

Apply

light

coat

oil

the

bearings,

and

install

the

bearings

back

onto

the

drive

roll

shafts.

FUSE

(Figure

2-4)

The

control/feeder

protected

from

damage

due

internal

short

excessive

overload

fuse.

Fuse

located

the

rear

panel

the

control.

should

open.

the

control/feeder

would

completely

inoperative.



Hazardous

voltages

are

present

the

internal

cir

cuitry

the

control/feeder

long

power

connected

the

unit.

Disconnect

power

before

attempting

any

inspection

work

the

inside

the

unit.

Troubleshooting

internal

circuitry

should



performed

qualified

personnel

only.

The

following

chart

designed

diagnose

and

provide

remedies

for

some

the

troubles

that

may

develop

this

control/feeder.

assumed

that

proper

installation

has

been

made,

according

Section

this

manual,

and

that

the

control/feeder

has

been

functioning

properly

until

this

trouble

developed.

Use

this

chart

conjunction

with

the

circuit

diagram

while

performing

troubleshooting

procedures.

the

trouble

not

remedied

after

performing

these

procedures,

the

nearest

Factory

Authorized

Service

Station

should

contacted.

all

cases

equipment

malfunction,

the

manufacturers

recommendations

should

strictly

followed..

SECTION

MAINTENANCE

SECTION

TROUBLESHOOTING

TROUBLE

PROBABLE

CAUSE

REMEDY

Depressing

gun

switch

will

not

energize

control/feeder.

Electrode

wire

not

energized

and

shielding

gas

does

not

flow.

POWER

switch

wrong

position

defective.

Place

switch

position.

Circuit

breaker

(CB1

)

tripped.

Replace

defective

POWER

switch.

Manually

reset

circuit

breaker

depressing

the

button

the

front

panel

the

control/

feeder

labeled

RESET.

Plug

from

gun

switch

not

secure

Switch

Control

receptacle

(RC2)

control/feeder.

Insert

plug

fully

into

Switch

Control

receptacle

(RC2)

and

rotate

plug

1/2

turn

clockwise.

115

volts

input

plug

not

secure

receptacle

(RC7)

and/or

input

line,

Insert

plug

fully

into

116

vac

receptacle

(RC7)

and

rotate

plug

1/2

turn

clockwise,

check

plug

input

line.

115

volts

input

fuse

(Fl)

open.

*Replace

fuse

(Fl).

Lead(s)

the

rear

the

Switch

Control

receptacle

loose.

Remove

control/feeder

cover

and

check

lead

connections

the

rear

the

receptacle.

Coil

plug-in

relay

(CR1)

defective.

Replace

relay

(CR1).

Wire

feeds,

shielding

gas

flows,

but

electrode

wire

not

energized.

115

vac

Contactor

Control

plug

not

secure

contactor

receptacle

welding

power

source

and/or

control/feeder.

Insert

plug

fully

into

receptacle

and

rotate

plug

1/2

turn

clockwise

(check

both

ends).

Contactor

Control

cable

leads

not

secure

contactor

plug

terminals.

Secure

leads

plug

terminals.

Defect

welding

power

source.



See

troubleshooting

section

welding

power

source

instruction

manual.

Wire

feeds

erratically.

Pressure

drive

rolls

insufficient.

Rotate

pressure

adjustment

wing

nuts

clockwise

1/4

turn

increments

until

wire

slippage

stops.

Drive

roll

too

large

for

wire

size

being

used.

Change

proper

size

drive

roll.

See

Section

2-10.

Worn

drive

roll.

Replace

drive

roll.

See

Section

2-10.

Dirt

drive

roll.

Clean

drive

roll

instructed

Section

5-2.

*If

becomes

necessary

replace

any

fuse

the

control/feeder,

ensure

that

fuse

the

proper

size

used.

Page

Figure

6-1.

Circuit

Diagram

Circuit

Diagram

No.

CB.056

132.1F

SECTION

DATA

CHARTS

7-1.

GENERAL

The

two

basic

types

metal

transfer

are

spray

and

short

Circuit.

Spray

transfer

comprises

steady

stream

fine

droplets

moving

across

physical

space

from

the

electrode

the

workpiece.

The

short

Circuit

welding

technique

transfers

metal

from

the

electrode

the

workpiece

contact

only.

The

electrode

physically

touches

the

work

and,

since

electrically

energized,

short

circuits

the

welding

Circuit.

The

short

circuiting

action

occurs

many

times

per

second.

POWER

SOURCE

REQUIREMENTS

Power

sources

required

with

the

spray

transfer

technique

Gas

Metal-Arc

Welding

are

the

constant

potential

type.

The

constant

potential

power

source

may

not

have

some

method

slope

control.

The

short

circuit

method

metal

transfer

requires

constant

potential

class

power

source

with

some

method

slope

control.

Slope

settings

may

fixed

adjustable

tapping

reactor

either

mechanically

electrically.

7-3.

MILD

STEEL

AND

LOW

ALLOY

STEEL

The

settings

provided

Table

7-1

are

applicable

most

weldable

steels.

Some

modifications

will

made

for

any

specific

application,

course,

because

the

ranges

are

necessarily

broad.

They

will

constitute

basis

for

setting

welding

condition.

Table

7-1.

Short

Circuit

Transfer

Mild

And

Low

Alloy

Steels

Electrode

Diameter

Amperage

Range

dcrp

Load

Voltage

Slope

Turns

Power

Source

0.030

70-130

15-21

250

Amp

CPWelding

Machine

0.035

80-190

16-22

250

Amp

CPWelding

Machine

0.045

100-225

17-22

250

Amp

Welding

Machine

Approximate

Power

Source

Settings

The

settings

shown

Table

7-1

are

predicated

using

CO2

shielding

gas

for

mild

steel

and

Argon-CO2

for

low

alloy

steel.

l~l~

E'Q

SCR

LJNIJuNCrION

LEAD

E~D

VIEW

OM-1234

Page

Table

7-2.

Spray

Transfer

Mild

And

Low

Alloy

Steels

Electrode

Diameter

Amperage

Range

dcrp

Load

Voltage

Slope

Turns

Power

Source

0.030

150-265

24-28

0-3

Type

0.035

175-290

24-28

0-3

Type

0.045

200-315

24-30

0-3

Type

1/16

275-500

24-32

1-4

Type

3/32

350-600

24-33

1-4

Type

Approximate

Power

Source

Settings

The

settings

Table

7-2

are

predicated

the

use

Argon-5

pct.

oxygen

shielding

gas

for

Mild

and

Low

Alloy

Steels.

Table

7-3.

Short

Circuit

Transfer

Stainless

Steel

300

Series

Electrode

Amperage

Range

Diameter

dcrp

Load

Slope

Power

Voltage

Turns

Source

0.030

50-145

17-22

8-12

Type

w/slope

0.035 65-175

17-22

8-10

Type

w/slope

0.045

100-210

17-22

8-10

CPTypew/slope

Approximate

Power

Source

Settings

The

settings

shown

Table

7-3

are

predicated

the

use

trigas

mixture

pct.

HE;

7-1/2

pct.

2-1/2

pct.

CO2

for

Stainless

Steel

300

Series.

Flow

rates

were

approximately

20cfh.

Table

7-4.

Spray

Transfer

Stainless

Steel

300

Series

Electrode

Diameter

Amperage

Range

Load

Voltage

Slope

Turns

Power

Source

0.030

160-210

24-28

2-6

CPType

0.035

180-255

24-29

2-6

Type

0.045

200-300

24-30

2-6

Type

1/16

215-325

24-32

0-4

CPType

3/32

225-375

24-32

0-4

Type

Approximate

Power

Source

Settings

The

settings

shown

Table

7-4

are

predicated

the

use

Argon-Oxygen

shielding

gases

for

Stainless

Steel

300

Series.

Oxygen

percentage

varies

from

1-5

pct.

Table

7-5.

Flux

Cored

Settings

Wire

Size

Arc

Amps

Arc

Volts

Gas

Type

Gas

Flow

1/16

290-325

28-31

CO2

40-48

CFH

5/64

350-400

29-32

CO2

40-48

CFH

3/32

400-450

29-32

CO2

40-48

CFH

7/64

425-475

29-32

CO2

40-48

CFH

1/8

475-550

29-32

CO2

40-48

CFH

Table

7-6.

Amperage

Output

For

Various

Speed

Change

Gear

Combinations

Figures

Based

Use

CO2

Shielding

Gas

650

600

550

500

255

225

nfl

175

150

4

1/8

~64

5/64

~.

CHANGE

GEARS

ADEQUATE

RECOMMENDED

~

~:

-~



R.l~

8) 90

1(0

1-45

500

130

570

230

270

315

415

515

565

MOTOR

SHAFT

GEAR

RATIO

DRIVE

ROLL

l,.~

I::

1~~

GEARS

ADEQUATE

RECOMMENDED



/64



-.-



.



8-0

500

1-30

105

140

170

220

275

340

360

MOTOR

SHAFT

DRIVE

ROLL

GEAR

RATIO

O3~



:::

03!



;t.?f

7~_



~

;

I16



;;~

70 80

1-85

115

15S

210

270

360

390

550

650

825

MOTOR

SHAFT

DRIVE

ROLL

GEAR

RATIO

275

25C

225

20C

175

15C

125

Graph

BOO

650

600

550

500

450

400

350

100

1-18

506

137

563

200

225

MOTOR

SHAFT

GEAR

RATIO

DRIVE

ROLL

Continued

Following

Page

Table

7-6.

Amperage

Output

For

Various

Speed

Change

Gear

Combinations

Figures

Based

Use

CO2

Shielding

Gas

(Contd.)

275

250

225

420C

/~8~2EiE

~__

4~I:~~iii



-4

40 50

80 90

too

1-55

130

170

225

260

350

435

540

660

800

MOTOR

SHAFT

GEAR

RATIO

DRIVE

ROLL

CHANGE

GE~

550

500



450



400



350



300



275

250

225

200



~



I/S



,,3~

 



~

---



.5i~



2~p



125



100



70 80 90

100

1-20

100

130

160

205

250

275

MOTOR

SHAFT

DRIVE

ROLL

GEAR

RATIO

~L!P_

650

600

500

~1H

;;

CHANGE

GEARS

ADEQUATE

275

250

225

200

125



£_



~:;



D~4



..



o~



70 80

100

135

170

215

260

320

390

445

MOTOR

SHAFT

DRIVE

ROLL

GEAR

RATIO

R=Wire

Speed

Control

Settings

Inches

Per

Minute

GEARS

ADEQUATE

600

RECOMMENDED

Graph

8-0

OM-1234

Page

January

1979

FORM:

OM-1234A

PARTS

LIST

Effective

With

Serial

No.

HJ171707

MODEL

MILLERMATIC

3OAN

CONTROL/FEEDER

C.)

-u

A)

N3COM

-~Nsa

C

0~a

-I

-S

(31

C.)

F..)

-a

-Jo,

..a

-Ti

--a

Item

Factory

No.

Part

No.

Description

Quantity

Figure

Main

Assembly

058

432

HUB

SPINDLE

ASSEMBLY

(consisting

of)

058427

RING,

retaining-spool

601

884

NUT,

steel

hex

jam

5/8-11

605

941

WASHER,

flat

steel

41/64

010

233

SPRING,

compression

057

971

WASHER,

flat

steel

keyed

1-1/2

dia

010

191

WASHER,

fiber

5/810

1-1/200

1/8

058

628

WASHER,

steel

brake

058

428

HUB,

spool

plastic

058434

.SPINDLE,support-hub

605

946

PIN,

cotter

1/8

057

334

CONTROL

BOX

ASSEMBLY

(See

Fig.

Page

034

098

EYELET,

brass

004

880

SCREW,

machine

steel

hex

10-32

1-1/2

004

881

MOTOR,

gear

(See

Fig.

Page

601

865

NUT,

steel

hex

full

1/4-20

602

207

WASHER,

lock

split

1/4

058

877

GEAR,

spur

nylon

tooth

058

878

GEAR,

fiber

tooth

056

094

GEAR,

steel

tooth

604

799

SCREW,

set

1/4-20

3/4

057

319

HANDLE,

carrying

010 910

WASHER,

flat

steel

SAE

3/8

601

956

SCREW,

cap

steel

hex

1/4-20

1-1/4

602

241

WASHER,

flat

steel

SAE

1/4

601

871

NUT,

hex

steel

3/8-16

jam

602

128

SCREW,

machine

steel

flat

1/4-20

1-1/2

601

839

NUT,

brass

hex

full

1/2-13

038

825

STUD,

brass

1/2-13

601

840

NUT,

brass

hex

jam

1/2-13

602

247

WASHER,

flat

steel

SAE

1/2

056330

SKID,base

056327

BAR,anchor

602

213

WASHER,

lock

steel

split

3/8

028

945

HANDLE,

carrying

028

939

BASE

058

546

DRIVE

ASSEMBLY,

wire

(See

Fig.

Page

10)

(consisting

of)

604

538

WASHER,

flat

steel

SAE

1/2

601

959

SCREW,

cap

steel

hex

5/16-18

1-1/2

602

024

SCREW,

drive

type

No.

3/16

NAMEPLATE

(order

stock,

model

serial

numbers)

601

926

SCREW,

cap

steel

hex

1/4-20

5/8

056

331

GUARD,

drive

roll

012

236

LABEL,

important

not

use

steel

gears

604

631

SCR

EW,

cap

steel

hex

1/4-20

058

429

SUPPORT,

spindle

056416

REEL,wire

(See

Fig.

EPage

11)

SURE

PROVIDE

STOCK,

MODEL,

AND

SERIAL

NUMBERS

WHEN

ORDERING

REPLACEMENT

PARTS.

OM-1234

Page

0 0

-1

I~)

*Re~mmended

Spare

Parts.

+These

items

are

not

included

when

ordering

Control

Box

Assembly.

SURE

PROVIDE

STOCK,

MODEL,

AND

STYLE

NUMBERS

WHEN

ORDERING

REPLACEMENT

PARTS.

Item

Dia.

Factory

No.

Mkgs.

Part

No.

Description

Quantity

Figure

057

334

Control

Box

Assembly

(See

Fig.

Page

Item

16)

*011

770

SWITCH,

toggle

SPDT

amp

125

volts

011

043

SWITCH,

toggle

DPDT

6amp

125

volts

SRi

*035

914

RECTIFIER,

integrated

amp

400

volts

057

314

CIRCUIT

CARD

ASSEMBLY

(See

Fig.

Page

011

232

SWITCH,

push

button

SPOT

S1,3

011

233

SWITCH,toggleSPDT

lOamp

250

volts

011

059

SWITCH,toggle

DPDT

amp

125

volts

056328

WRAPPER

010301

BUSHING,brass9/64IDx1/4ODx5/16

012

617

*030

942

HOLDER,

fuse

miniature

RESISTOR,

fixed

watt

ohm

*012

655

FUSE,

miniature

glass

amp

010199

TUBING,steel.275IDx.O48wallxl

010193

TUBING,steel3/8ODxl8gax

1/4

056170

SHIELD

030949

HEAT

SINK

+039

618

CAP,

twistlock

2P2W

056

169

BRACKET,

mounting

heat

sink

057

084

BUSHING,

snap

1/4

3/8

mounting

hole

038

855

BLOCK,

terminal

amp

pole

+056

442

BODY,

connector

grounded

twistlock

2P2W

*030941

RESISTOR,WWfixed

l00watt5ohm

RC7

056 665

RECEPTACLE,

male

flanged

grounded

twistlock

2P3W

010606

FITTING,hose-brassnut5/i8-18

056

265

CONNECTOR,

male

contact

amp

010603

FITTING,hose-brassbarbed

nipple

1/4TBG

010604

FITTING,hose-brassbushingl/4NPTx5/8

010927

HANGER,minerallicNo.4

GS1

035

601

033050

VALVE,

115

volts

way

1/4

IPS

port

1/8

orifice

(consisting

of)

COIL

100

010

190

FITTING,

pipe

galvanized

nipple

1/4

NPT

101

RC4

056266

CONNECTOR,female6contact

102

026

837

INSULATOR,

terminal

nylon

103

RC1

054

116

CONNECTOR,female4

contact

104

*031

692

CAPACITOR,

electrolytic

750

200

volts

106

RC3

039

855

RECEPTACLE,

twistlock

2P2W

107

056

165

BRACKET,

mounting

rear

108

CB1

*011991

CIRCUITBREAKER,1.5amp25ovolts

109

056

166

BRACKET,

mounting

front

110

010378

GROMMET,rubber9/16

IDx3/4

hole

1/16

groove

111

602934

FITTING,pipe-galvanized

coupling

1/4

NPT

112

*030943

POTENTIOMETER,carbon-singleturn2watt

l5Kohm

113

053881

CHASSIS

114

NAMEPLATE

(order

stock,

model

style

numbers)

115

010

929

WASHER,

flat

steel

spring

3/8

116

RC2

039

759

RECEPTACLE,

female-

flanged

midget

twistlock

2P2W

117

604

523

CAP,

twistlock

midget

2P2W

118

019609

KNOB,pointer

119

031

251

BRACKET,

mounting

connector

120

RC5

039756

CONNECTOR,amphenol

121

038784

STRIP,terminal

pole

122

CR1

*034841

RELAY,24voltsacDPDT

123

RC6

039

825

RECEPTACLE,

socket

MS-3102A-14S-6S

124

*036

135

TRANSFORMER,SNC

115/24voltsac

OM-1

234

Page

COMPONENTS

REPLACED

OUAUFIED

PERSONNEL

ONLY

SURE

PROVIDE

STOCK,

MODEL,

AND

SERIAL

NUMBERS

WHEN

ORDERING

REPLACEMENT

PARTS.

Dia.

Factory

Mkgs.

Part

No.

Description

Quantity

Figure

057

314

Circuit

Card

Assembly

(See

Fig.

Page

Item

74)

C2,3

031

694

CAPACITOR,

mylar

0.47

200

volts

C4,8,9

031

643

CAPACITOR,

ceramic

0.01

500

volts

031

693

CAPACITOR,

mylar

0.33

volts

ClO

031

633

CAPACITOR,electrolylic80uf25voltsdc

C12

031

721

CAPACITOR,mylar0.22uf200voltsdc

D1-4

026202

DIODE,

lamp

400

volts

straight

polarity

037

250

DIODE,

zener

volts

watt

037

824

THYRISTOR,

7.4

amp

200

volts

010

915

WASHER,

flat

brass

1/4

(mounting

01)

602

208

WASHER,

lock

steel

external

tooth

1/4

(mounting

Ql)

601

867

NUT,

steel

hex

jam

1/4-20

(mounting

01)

037261

HEATSINK

037

289

TRANSISTOR,

unijunction

5OMA

volts

030

937

RESISTOR,

carbon

0.5

watt

ohm

030

854

RESISTOR,

carbon

0.5

watt

18K

ohm

030945

RESISTOR,carbori2watt4700ohm

028

276

RESISTOR,

carbon

0.5

watt

2200

ohm

030

944

POTENTIOMETER,

turn

watt

5000

ohm

030936

RESISTOR,carbon0.Swatt33Kohm

RiO

030 853

RESISTOR,

carbon

0.5

watt

2200

ohm

030938

RESISTOR,carbon0.5watti200ohm

030

934

RESISTOR,

carbon

0.5

watt

6800

ohm

R20

030

090

RESISTOR,

carbon

0.5

watt

ohm

036

143

TRANSFORMER,

pulse

602

196

WASHER,

lock

steel

internal

tooth

No.

(mounting

T2)

601

858

NUT,

steel

hex

4-40

(mounting

T2)

Figure



Circuit

Card

Assembly

TA-057

314

Page

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Miller HJ171707 Owner's manual

Brand: Miller

Model: HJ171707

Category: Welding System

Type: Owner's manual

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