WIA Weldmatic 210S Owner's manual

WIA
Brand
WIA
Model
Weldmatic 210S
Category
Welding System
Type
Owner's manual
WELDING
INDUSTRIES
OF
AUSTRALIA
A
DIVISION
OF
WELDING
INDUSTRIES
LTD
ACN
004
547
1
l1
Head Office
and
International Sales
5
Allan Street,
Melrose
Park
South Australia,
5039
Telephone
(08)
8276
6494
Facsimile
(08)
8276 6327
OWNERS
MANUAL
WELDMATIC
210s
MODEL
NQ.
CPqO5-0,
REV.
B
MODEL
NO.
CPlO5-11,
REV.
B
Q8196
QUALITY WELDING
PRODUCTS,
SYSTEMS AND S€RV/CE
Page
2
.
WELDMATIC
21
OS
MANUAl
Page
3
SAFETY
Before this equipment is put into operation. the
SAFE
PRACTICES section at the
back of the manual must
be
read completely
.
This
will
help to avoid possible injury
due
to
misuse or improper welding applications
.
CONTENTS
SeC.1
..................................
IfltrOduCtiQrt
........................................
P.4
Sec.2
....................................
Receiving
..........................................
P.4
Sec3
.................................
Specifications
.......................................
P.5
Sec4
.........................
Power
Source
Controls
...............................
P.6
Sec5
...................................
Installation
.........................................
P.7
Sec.6
......................
Normal Welding Sequence
.............................
P.10
Sec7
.......................
Basic Welding Information
.............................
P.10
Sec.8
...........................
General Maintenance
.................................
P.13
Sec9
..............................
Trouble Shooting
....................................
P.13
Sec.10
..........................
Service
Information
..................................
P.74
Sec
.
1
1
..................................
Parts Lists
..........................................
P.18
Sec.12
..............................
Safe Practices
.......................................
R23
FIGURES
Fig.1
..........................
Power Source Controls
...............................
P.6
Fig2
...................
Remote Wirefeeder Connection
.........................
P.8
Fig.3
.........................
Positive Wire Connection
..............................
P.9
Fig.4
........................
Negative Wire Connection
.............................
P.9
Fig7
...................................
Gun
Position
........................................
P
.
12
Fig.8
................................
Circuit Diagram
......................................
P.15
Fig.9
.........................
Dual
SCR
Control Board
..............................
P.16
Fig.10
........................
Wirefeed Control Board
...............................
P
.
I?
Fig.?
1
.......................
Power Source Assembly
...............................
P.19
Fig.i2
..........................
Gun Cable
Assembly
.................................
P.20
Fig.13
..........................
Wire Drive Assembty
.................................
P.21
Fig.5
...................................
‘Good’ Weld
........................................
P.12
Fig.6
....................................
‘Bad’
Weld
.........................................
p.12
Fig.14
...........................
Remote Wirefeeder
...................................
P.22
Page
4
WELDMATIC
21
OS
MANUAL
The information contained in this manual is set out to enable you
to
properly
maintain your new equipment and ensure that you obtain maximum operating
efficiency.
Please ensure that this information is kept in
a
safe place for ready reference
when required at any future time.
When requesting spare parts, please quote the
model
and serial number
sf
the
machine and part number
of
the
item required. All relevant numbers are shown
in
lists
contained in this manual. Failure to supply this information may result
in
unnecessary
delays in supplying the correct parts.
Gas
Metal Arc Welding (G.M.A.W.) is a basically simple welding process, where
a
consumable wire is fed by motor driven drive rollers
to
a
welding gun, and where
welding current is supplied from the welding power source. The welding arc is struck
between the workpiece
and
the end
~f
the wire, which melts into the weld
pool.
The
arc
and
the weld
pool
are both shielded by gas flow from the gun, or in the case of
"self shielded" wires, by gases generated by the wire core.
The process is very versatile in that by selection of the correct
wire
composition,
diameter and shielding gas, it can be used for applications ranging from sheetmetal
t~
heavy plate, and metals ranging from carbon steel to aluminium alloys.
The WELDMATIC
210%
has been designed
to
be used with consurnable wires in
the range from
0.6mm
to
1.2mm
diameter. The smaller wire
sizes
are used when
welding at lower currents, such
as
sheet-metal applications. Increasing the wire
diameter permits higher welding currents to be selected.
A common application of G.M.A.W. is for welding Mild Steel. In this application, a
Mild Steel
solid
consumable
such
as
WlA
ES6
is used with
a
shielding
gas
of
Carbon
Dioxide, or Argon mixed with Carbon Dioxide. Alternatively, Flux-cored consumables
are available in both
gas
shielded, and 'gasless' self shielding types.
Stainless steel and Aluminium can be welded with G.M.A.W. using the correct
consumable wire and shielding
gas.
2.
RECEtWING
Check
the
equipment received against the shipping invoice
to
make
sure the
shipment is complete and undamaged. If any damage has occurred in transit, please
immediately notify your supplier.
The
GP-105-8
(Internal Wirefeeder) Package contains;
WELDMATIC
210s
Power source.
H
BEXT2-4E218AE
BERNARD
Gun cable,
3
metre, Euro connector.
P
HAlJQIAW Regulator and Ftowgauge. (Argon)
p
(This) Owners Manual,
The
CP185-l
(Remote Wirefeeder) Package contains;
I
WELDMATIC
210s
Power Source.
II
W32-Q
Wirefeeder.
m
AM208-0/10 Inter-connecting lead kit,
10
metre.
W
BEXT2-4E21OAE
BERNARD
Gun cable,
3
metre, Euro connector.
P
HA801AR
Regulator and Flowgauge. (Argon)
I
(This) Owners Manual.
WELDMATIC
21
OS
MANUAL
Page
5
3.
SPECIFICATIONS
Manufactured to Australian standard AS1 966.1-1
985
PRIMARY VOLTAGE
.........................................
240
Volts A.C., Single Phase,
50
Hz.
RATED PRIMARY CURRENT
...........................
15 Amps
MAX PRIMARY DEMAND
..................................
30 Amps,
7.2
kVA
(Minimum requirement for supply
from engine driven alternator.
FUSE RATING (Note
l)
.....................................
30 Amps
FITTED
SUPPLY CABLE
...................................
3010.25
Three Core,
WIRE
SIZE
RANGE
...........................................
0.6mm
-
1.2mm diameter
Heavy Duty PVC
OPEN CIRCUIT VOLTAGE
................................
Maximum HIGH Range 35V.
Maximum
LOW
Range
24V.
WIRE FEED RANGE
.........................................
1 to 12 Metres/min
COOLING
..........................................................
Fan cooled, air drawn in
through top louwre.
WELDING CURRENT RANGE
..........................
35
-
205
AMPS
OUTPUT RATING (Note
2)
................................
Rated Output: 180 Amps
@
24
Volts,
35%
Duty Cycle.
Note 1. Australian Standards allow the circuit breaker
or
fuse supplying a welder to be
rated at up to twice the rated primary current of the welder.
(AS3000, Clause 2.4.3.4)
Note
2.
Duty cycle is defined in Australian Standard AS1966.1
as
the ratio of arcing
time to
5
minutes
in
any
5
minute period, expressed
as
a
percentage.)
"-@
HIGH-LOW
SWITCH
-@
POWER
ON
INDICATOR
3
INTERVAL CONTROL
SPOT
TIME
CONTROL
WIRE SPEED CONTROL
VOLTAGE
CONTROL
"@
POLARITY
SOCKETS
1.
POWER
ON
INDICATOR
power is connected
lo
the
welder.
'This
is
illuminated
when
the
machine is energised, that
is
when electrical mains
2.
HIGH
-
LOW
SWITCH
This switch provides Coarse adjustment
of
the Output Welding voltage.
This control provides Fine adjustment
of
the
Output Welding voltage. Rotating the
3.
VOLTAGE
CONTROL
control in
a
clockwise direction will increase
the
output voltage.
4.
WIRE
SPEED
CONTROL
clockwise direction increases
the
wirefeed
speed,
increasing the welding current.
5.
SPOT
PIME
CONTROL
When operating
the
machine in Spot Weld mode, this control will
vary
the spot
weld
time. Rotating the dial clockwise will increase
the
spot
weld time, in the range
8.5
-
2.5
seconds.
If
the
Spot
Weld
mode
is not required this feature can
be
turned
off
by
rotating the control anti-clockwise until
it
'clicks' into the minimum
position.
6.
INTERVAL
CQNPROL
When operating
the
machine
in
Cycle
Arc
mode
this
control
sets
the period
between
welds.
The
spot
time controt
sets
the welding period. Rotating the
dial
ctockwise will increase the interval time,
in
the range
0.5
-
2.5
seconds.
If
the
Cycle
Arc
mode
is
not
required this feature can
be
turned
uff
by
rotating both controls fully
anti-clockwise.
7.
POLARITY
SOCKETS
These
sockets
are
provided
to
allow
quick
and
easy
changing
of
the
welding
polarity, simply
by
removing the two
plugs
{flying
lead
and
work
lead)
and
replacing
them
in the opposite sockets.
The
wirefeed
speed
of the machine is varied with this
control;
turning the
dial
in
a
WELDMATIC
21
OS
MANUAL
Paae
7
5.
INSTALLATION
CONNECTION TO ELECTRICAL
MNNS
POWER SUPPLY
The WELDMATIC 210s is supplied with a
3
metre
3
core Heavy Duty
PVC
mains
power supply cable and standard
15
Amp plug.
A
15 Amp plug and socket is recognisable
by
a wide Earth pin. Power Supply authorities require that equipment fitted with a 15 Amp
plug shall
ONLY
be connected to
a 240
Volt, 15 Amp power point.
DO
NOT modify the
The capacity of the main wiring and power outlet supplying
a
welder is selected
according to the
rafed
primary current of the machine. The circuit breaker or fuse,
however must tolerate the periods of maximum demand which occur during arcing. For
this reason, Australian standards allow the circuit breaker or fuse supplying a welder to be
rated at up to twice the
rated
primary current of the welder, (AS3000, clause 2.4.3.4). The
recommended supply fuse is
30
amps. Due to peak current requirements, the electrical
mains supply to welding machines
is
best protected
by
fuses. Circuit breakers may trip
frequently
if
used in this application.
If it becomes necessary to replace the mains power supply cable, use only a cable
with an equivalent or higher current rating. Access to the machine supply terminals is
gained by removing the power-source side panel opposite to the wire-spool enclosure.
FITTING
THE GUN CABLE
The BERNARD BEXT2-4E21QAE gun cable is equipped with a 'Euro' wirefeeder
connector which incorporates all required connection points to the gun cable for welding
current, shielding gas and gun switch control.
To attach the gun cable to the wirefeeding mechanism, engage the mating parts of
the male and female Euro connectors, then rotate the locking ring clockwise to firmly
secure the connection.
FITTING THE
GAS
BOTTLE
Depending on configuration of the cylinder to be used, the gas flowmeter
/
regulator
may be fitted directly
to
the cylinder, or
in
conjunction with an elbow fitting.
BO
NOT
apply
any grease to these joints, and tighten the nuts securely.
Fit the end of the gas inlet hose from the back panel of the machine to the connector
supplied with the flow regulator, and secure with the clamp also supplied.
FITTING THE CONSUMABLE WIRE
The quality of the consumable wire greatly affects how reliably a G.M.A.W. machine
will operate.
For
best results when welding mild steel, we recommend quality WIA
AUSTMIG
ES6.
Dirty, rusty or kinked wire
will
not feed smoothly through the gun cable
and will cause erratic welding. Deposits from the wire will clog the gun cable liner
requiring it to be replaced prematurely.
Place the spool of welding wire onto the spool holder. The location pin should mate
with a hole provided on the wire spool body. Fit the spool retaining 'R' clip supplied.
Check the adjustment
of
the spool brake, which should be set to prevent over-run of
the wire spool at the end of a weld, without unduly loading the wirefeed motor. The
braking can be adjusted by the Nyloc nut using
a
15/16"
AF
or 24mm socket wrench.
Plug.
FsageWWEbDWlATlC
21
OS
MANUAL
FEEDING THE CONSUMABLE WIRE
With reference to Figure
13,
release the pressure screw
(IO),
and rotate the
pressure arm
(8)
to the open position. The end
of
the welding wire can now be passed
through the inlet guide, over the bottom driven roller, and into the output wire guide tube.
Check that the drive roller groove
is
correct for the wire in use. The appropriate size is
stamped on the visible side
of
the installed roller. Check
also
that the correct:
size
contact
tip is fitted at the gun end. Drive roller and tip details are available
in
Section
11
of this
manual.
Return the pressure arm to the closed position and, adjust the compression screw
to
provide sufficient clamping of the drive rolls drive to achieve constant wirefeed.
Do
not
over tighten.
FITTING
REMOTE WIREFEEDER
Where fitted, the
W32-0
remote wirefeeder is connected to the
WELDMATIC
210s
power source using an
AM208
extension
lead
kit. The connection details are shown in the
diagram
below.
GUN CABLE
CONNECTOR
I
I
CABLE
SEE NOTE
CLAMPS
FIGS1
(b-
W/
CONTROL CABLE
\
W32-0
I
AM208
WIRE FEEDER EXTENSION LEAD
KIT
I
e$&,
RED
-
GREEN
WELDMATIC
210s
POWER SOURCE
DETAIL OF POWER CABLE CONNECTION
FIGURE
2.
REMOTE WIREFEEDER CONNECTIONS
WELDMATIC
21
QS
MANUAL.
Page
9
amur
VOLTAGE
POLARITY.
The
desion
sf
the
WELDMATIC
210s
allows
selection
of
the
Output Voltage
polarity.
POSITIVE
WIRE
Most
G.M.A.W.
is carried out with the workpiece Negative
and
the welding
consumable wire Positive.
To
set
the machine for this condition, insert
the
'WORK'
lead
plug
into the
negative socket
[-),
and the
'GUN
CABLE'
plug into the positive socket
(t),
as
in figure
3.
below.
NEGATIVE
WIRE
Some
"Self-Shielded" flux
cored
consurnables
are
intended
to
be operated with
the workpiece Positive and the consumable wire Negative.
Refer
to
the
manufacturers data for the particular consumable to be used.
To
set the machine for this condition, insert the
'WORK'
lead
plug into the
positive socket
(+),
and
the
'GUN
CABLE'
plug into the negative socket
(-1,
as
in figure
4,
below.
FIGURE
3.
POSITIVE
WIRE
4
l
FIGURE
4.
NEGAliVE
WIRE
Page
10
WELDMATIC
21
OS
MANUAL
6.
NORMAL
WELDING
SEQUENCE
WELD
START
Closing the welding gun switch initiates this sequence of events:
D
The gas valve is energised and gas flow commences;
The Power Source contactor function is initiated. Welding voltage is applied
between the work-piece and the consumable wire.
M
The wire drive motor is energised, wirefeed commences and the arc is
established.
WELD
END
Releasing the gun switch initiates this sequence of events:
The wire drive motor is de-energised, and is dynamically braked
to
a stop;
m
After a short pre-set period, known as the ‘burn-back’ time, the Power-source
contactor function
is
released. This period ensures that the consumable wire
does not ‘freeze’
in
the weld
pool.
To adjust the ‘burn-back’ time, refer
to
Section
10.
D
The gas valve is de-energised and the flow
of
shielding gas ceases.
7.
BASIC WELDING
INFORMATION
CHOICE
OF
SHIELDING
GAS
The choice of shielding gas is largely determined by the consumable wire to be
The recommended shielding gases for use with the WELDMATIC
210s
are:
Mild
Steel
.............................
Argon
f
5
to
25%
Carbon Dioxide;
m
Aluminium
............................
Argon;
used. Many proprietary shielding gas mixtures are available.
M
Stainless Steel
.....................
Argon
t
1
to
2%
Oxygen.
Consult your gas supplier
if
more
specific information is required.
WELDMATIC
21
OS
MANUAL
Page
1
1
SHIELDING
GAS
FLOW
RATE
In
G.M.A.W,,
one
of
the functions of the shielding gas
is
to protect the molten
weld pool from the effects of oxygen
in
the
atmosphere. Without this protection the
weld deposit becomes 'honeycombed' in appearance, an effect which
is
described as
weld porosity.
In draft-free conditions the gas flow rate required to give adequate protection is
typically
10
litres/min. In situations where drafts cannot be avoided,
it
may
be
necessary to increase this rate and/or to provide screening
of
the work area.
Weld
porosity can also be caused by air entering the
gas
stream through a
damaged hose, loose gas connection,
or
from restriction in the nozzle, such as from
excess build-up
of
spatter.
ESTA5LlSHlNG
A
WELD
SEITlNG
the two variables that are adjusted in order to obtain a stable arc are;
Once the consumable wire type, wire size and shielding gas have been chosen,
H
Wirefeed speed,
m
Welding arc voltage.
The wirefeed rate determines the welding current; increasing the feed rate
increases the current, and decreasing
it
decreases current. The selected wirefeed
rate must be matched with sufficient arc voltage;
an
increase of wirefeed rate requires
an increase
of
arc voltage.
If
the voltage
is
too
low
the wire will stub
and
stutter, and there will not be a
steady arc.
If
the voltage
is
too high the arc will be long with the metal transfer within
the arc occurring as a series
of
large droplets.
The welding current should be chosen to suit the thickness of the metal to be
welded.
it
is
important to check that the deposited weld provides sufficient strength
to suit the apptication.
Page
l2
WELDMATIC
21
OS
MANUAL
A
"good" weld will have the characteristics illustrated in figure
5.
The weld has
penetrated into the parent metal, fusing the root
of
the joint where the two plates
meet, and the weld blends smoothly into the side walls.
A
"bad" weld
is
shown
in
figure
6.
The weld has not penetrated the joint root,
and
there is poor side wall fusion. This
lack
of
fusion would normally be corrected by
increasing the arc voltage, or by increasing both wirefeed rate and arc voltage to
achieve
a
higher current weld setting.
FIGURE
5.
"GOOD"
WELD
FIGURE
6.
"BAD"
WELD
GUN
POStTION
below with the nozzle end pointing
in
the
direction of travel.
For
"down
hand" fillet welding,
the
gun is normally positioned as in the figures
FIGURE
7.
GUN
POSITION
l
~
DUST
Care should be taken to prevent excessive build-up
of
dust
and dirt within the
welding power source.
It
is recommended that at regular intervals, according to
the
prevailing conditions, the machine covers
be
removed and any accumulated dust
be
removed by the use
sf
dry, low pressure cornpressed air, or
a
vacuum cleaner.
WIREFEED
In
order to obtain the most satisfactory welding results from the
G.M.A.W.
process, the wirefeed must he smooth and constant.
It
is therefore important
to
observe the
following
points;
8
Keep the gun cable iiner clear
of
dust and swarf
build-up.
When replacement
becomes necessary,
fit
only the correct liner
to
suit the gun cable model.
See
Section
1
I.
The
build-up
of
dust
in
a
cable liner
can
be minimized
by
regular
purging
of
the liner with dry compressed air. This may
be
conveniently done
each
time
the wire
spool
is
replaced.
S
Replace the welding tip
as
it becomes worn.
~9
Keep the wire drive mechanism
clean,
Periodically check the drive rollers for
wear and for free rotation.
Check that the consumable wire
spool
holder rotates smoothly and that the
braking action is not excessive. This aiso
may
be conveniently done each
time the wire is replenished.
9.
TROUBLE
SHOOTING
WIREFEED
R
Erratic wirefeed is the
MOST
LIKELY
cause
of
failure
in
all Gas Metal Arc
Welding.
It
should therefore
be
the
first point cheeked when problems occur.
Refer to the section above.
N
Check for correct
gas
flow rate at
the
welding torch n~szle
and
ensure there
are
no
gas
leaks.
The
gun
nozzle
must
be
free
from
spatter
and firmly
attached
to
the welding gun to ensure that air
is
not
drawn into the
shielded
area.
M
Check that the shielding gas selected is correct for the consumable wire in
use.
WELDING
CIRCUIT
m
Ensure
that
the
work clamp is securely tightened onto the work-piece
so
that
good
electrical contact
is
achieved. Check
also
that the output polarity
selected
is
appropriate for the consurnable
in
use.
H
Surface contamination
sf
the work-piece by
water,
oil,
grease, galvanizing,
paint, or oxide
tayers
can severely disturb the welding arc resulting
in
a
poor
weld.
Should
this condition occur, surface cleaning
of
the work piece will
be
beneficial,
Page
14
WELDMATIC
21
OS
MANUAL
WIREFEED
/
ARC
VOLTAGE RELATIONSHIP
tf
the consumable wire is stubbing into
the
workpiece, and
a
steady arc cannot be
obtained,
it
is likely that the arc voltage
is
set too low to suit the wire speed.
To
correct this situation either increase arc voltage, or decrease the wire speed.
If
the arc length is
too
long,
the
arc voltage
is
too high
ks
suit the wire speed.
To
correct this, increase wire
speed
or decrease arc voltage.
p18
WELDING
CURRENT
Check that Mains Supply is available at the WELDMATIC
210s
Power
Source, i.e.
that the fan is running
and
the indicator light is illuminated.
Check continuity of
the
welding current circuit,
i.e.,
work lead, work clamp and
gun cable connections.
The WELDMATIC
2105
welding ower source incorporates
an
inbuilt over
temperature thermostat which wili trip
i
P
the welding load exceeds the operating duty
cycle.
In
this event the machine will not deliver welding current until the machine has
cooled sufficiently. The thermostat will reset automatically
-
do
not switch the
machine off
as
the cooling fan will assist tke resetting
of
the thermostat.
If
the forgoing checks have been made and have not revealed
the
fault condition,
a QUALIFIED SERVtCE person should
be
consulted.
The main electrical components of the WELDMATIC
210s
are listed below, with
reference to the following circuit diagram.
Welding Rectifier Assembly.
This comprises twelve high-current rectifier diodes mounted on aluminium
heatsinks, electrolytic filter capacitors, transient protection network and
discharge resistors.
Wetding Transformer.
The Primary winding is tapped to provide High
/
Low range adjustment,
and the secondary is centre tapped. Maximum open circuit
secondary wottage
=
24
-
0
-
24
Votts
AC
with
HIGH
range and the maximum
voltage selected.
Wirsfeed control Board
See following description.
Duat
SCR
Control
Board (including
Dual
SCR)
See
following description.
Control Transformer
The secondary winding is centre-tapped, providing
an
output
voltage
=
30
-
0
-
30
Volts
BC.
Welding Inductance.
HIGH
-
LOW
Range
Switch.
Limiting Inductance.
Gas
varve.
WELDMATfC
21
OS
MANUAL
Page
15
""""_
~
I
l
COARSE
'
VOLTAGE
I
RED
I
26
,
SELECTOR
I
WH
I
Lo
If
l
24BU
15A
5Ehz
Er---"--l
n
-1
F'
I
I
=CTRLl
T/F
I
-
_I
l
'=l
==
SCR NODULE
ELK YEL GRY BLU
I I
FAN1
7
CPIBZ-51
FAN2
DUAL SCR
ASSEMBLY
(
i
nc
lud
i
ng
SCR.
1
THERNISTAT
RECTIFIER
GAS
VALVE
cd
P
I
-1
L
-
P1
"""
l
I
I
L-
l
CPlE5-lE
WIREFEED BRD
PWR.ON
DCEP
with
Gas
Solid
lines
/
/
G/SW
YEL
v
SPOT
RED CCWl
BLU CCWl
FIGURE
8.
WELDMATIC
210s
CIRCUIT
DIAGRAM
Page
16
WELDMATIC
21
OS
MANUAL
DUAL SCR
CONTROL
BOARD
CP102-51
The Dual SCR Control board
and
associated Dual
SCR
together provide two
circuit functions;
m
Welding transformer
ON
/
OFF
control in response to an output
of
the
wirefeed control board, (the contactor function).
E
Output voltage control by means
of
phase-shifting
of
the Welding transformer
primary voitage, as adjusted by the front panel
‘VOLTAGE
CONTROL’
potentiometer.
With
HIGH
range selected, the
‘VOLTAGE
CONTROL’ provides adjustment of
the
welding transformer secondary voltage over the range
11
-
24
Volts
A.C.,
measured
from the centre tap
to
one end
of
the
winding.
Connections to the board are detailed in the diagram below.
FIGURE
9.
DUAL
SCR
CONTROt
BOARD
WELDMATIC
21
OS
MANUAL
Page
17
The
Wirefeed control board provides
the
following circuit functions:
B
Wirefeed motor
ON
/
OFF
control
in
response to
the
gun-switch.
IE~
Speed
controt
of
the
wirefeed motor.
’Burn-back’ control.
m
Braking
of
the
wirefeed
motor
at
end
of
weld.
Spot-weld timer.
n
Interval
timer.
Control
of
the
gas
solenoid valve.
Connections
to
the
board,
and Service points
are
detailed
in
the
drawing below.
The
circuit
is
factory
adjusted
to
provide
a
maximum
drive roller
speed
of
126
rpm.
DUAL
SCR ASS’Y
--
TO
CONTROL
T/Ffoo:
30.
DUAL
SCR
ASS’Y-(,
GAS
VALVE
<
L
P2
0
:)WIREFEED
MOTOR
:)WIRE
SPEED POT.
:>POWER
‘ON’
LED
--DUAL
SCR
ASS’Y
1).
GUN
SWITCH
:).SPOT TIME POT.
1).
INTERVAL
POT.
BURNBACK ADJUSTMENT
-/
L
MOTOR
RUN/BRAKE RELAY
FIGURE
10.
WIREFEED
CONTROL
BOARD
Page
18
WELDMATIC
21
OS
MANUAL
1
........................
CP
185-1
8
.........................
Wirefeecl Control PCB
2
........................
CP102-51
.........................
Dual SCR Control
PCB
(inc.Dual
SCR)
3
........................
CP105-Q/1
........................
Rectifier Assembly inc.Thermostat)
4
........................
CP10
5-1
3
.........................
Transformer Assem
b
ly
5
........................
§A140-0/2
........................
25 Dia Panel Socket
6
........................
CP102-I4
.........................
Inductance
7
........................
CP105-20
.........................
Limiting Inductance
8
........................
CPlO5-31
.........................
Capacitor Bank Assembly
Includes
........................
CP102-12/8
.....................
Capacitor
lO,OOOpF,
63V.(4)
........................
sP.101-12/9
.....................
Discharge resistor
(2)
9
........................
CP42-24
............................
Base
Assembly
10
........................
CP105-39
.........................
Centre Panel Assembly
1
l
........................
CP42-25
............................
Baffle Panel
12
........................
cp105-33Y
.......................
Front Panel
13
........................
CP42-22Y
.........................
3ack Panel
I4
........................
CP42-29Y
.........................
To
Cover
15
........................
CP42-26Y
.........................
Si
CP
e
Cover Fixed (not shown)
16
........................
CP42-27Y
.........................
Side Cover
~
Fixed Lower
l7
........................
CP42-28Y
.........................
Side Cover
-
Opening (not shown)
18
........................
W29-1/20
.........................
Slam Action Latch not shown)
19
........................ CP105-30
.........................
Rectifier Mounting
b
racket
20
........................
CF42-30
............................
PCB
Cover Panel
21
........................
cP42-0/3
.........................
Wheel Rubber 160 Dia
22
........................
MC1
1
-53/6
.......................
Ratchet Cap
23
........................
MK6/2
...............................
Terminal Block
24
........................
CP27-0/
15
........................
Coolin Fan
25
........................
CPI 02-0/16
.....................
Contro
Y
Transformer
26
........................
CPlOt-0 18
.....................
Gas Valve
27
........................
W1 1-1
1
/
1
.........................
Hose Tail
30
........................
W1C66-0/ 8
.........................
Primary
Flex
&
Plug
31
........................
W27-2
...............................
Wirefeed Motor
&.
2
Roll
Drive
33
........................
CP105-21
.........................
boom for Wirefeed
PCB
Includes
........................
CB27-1 1/26
.....................
Potentiometer,50K, Switched
(2)
........................
CP10’1-11/8
.....................
Potentiometer,lOK,AT’ype(l)
........................
W17-0/1
l
.........................
Indicator Light
34
........................
W5-10/19
.........................
Small
Knob
2
35
........................
W1
1-0/16
.........................
Large Knob 2
36
........................
62513
................................
Gas
Hose,
B
ii
ack Rubber
41
........................
SCG830
............................
Bottle Chain
44
........................
CP3-0/23
..........................
Rubber Grommet
45
........................
MC14-0/10
.......................
Conduit Bush,
Male
46
........................
MC‘I
4-0/1
1
.......................
Conduit Bush, Female
47
........................
CP105-23
.........................
Work Lead Assembly
Includes
........................
CLG300
............................
Work Clamp 3OOAmp
.......................
SA32-5/1
..........................
25 Dia Lead
Plug
48
........................
AMI
77
..............................
S
ool
Holder Assembly
65
........................
MC1 1-32/2
.......................
Nylon Bush
(2)
66
........................
W1
1-13
.............................
Motor Insulator
(2)
68
........................
TC396-1
............................
Euro Adaptor
2.4
Stem
69
........................
CPl02-28
.........................
Diode Protection Assembly
73
........................
CPlQ5-37
.........................
Busbar Link
74
........................
CP42-39
............................
Handle Assembly
58
........................
CP102-0/17
.....................
tp
1GH-LOW
Switch
NOTE
Far
the
Remote
Wirefeeder
ackage,
Items
31
E;
48
are
deleted,
and
item
6%
becomes
Rubber
Grommet,
Part
No,
c!
P102-27.
WELDMATIC
21
OS
MANUAL
Page
19
T
L
FIGURE
11.
WELDMATIC
210s
POWER
SOURCE
ASSEMBLY
Page
28
WELDMATIC
21
OS
MANUAL
BEXT2-4E21OAE GUM ASSEMBLY
1
......
BE4392
............
Nozzle
15.
...
BE4E213B
.......
End Fitting
2
......
BE7497
............
Contact tip Q.6mm 16
....
BE4305
............
Cone Nut
........
BE7488
............
Contact tip 0.8mm 17’....BE2660001
......
Terminal
........
BE7489
............
Contact tip 0.9mm 18
....
BE1520008
......
Clamp
........
BE7490
............
Contact tip 1.2mm 19.
...
BE252801
7...
...
Strain Relief
3
......
BE4335
...........
Head 20
....
BE1470007
......
Bushing
4
......
BE4323R
.........
Cap 21
....
BE1 8801 35..
....
Strain Relief, rigid
5
......
BE4780
............
Nut Insulator 22
....
B€2280002
......
Screw
6
......
BE1 3701 17
......
Insulator
23
....
H2072
..............
Insulated Link
9
......
BE1370116
......
Body Tube 24
....
BE4816
............
Nut
8
......
BE1780006
......
Handle Kit
25
....
BE5060
............
Euro Block
9..
....
BE5662..
..........
Trigger
26
....
BE4421
............l
Q‘
Ring
IO..
..
BE1 880004..
....
Screw Kit 2’7
....
BE431
10
..........
Liner
0.9
-
1.2mm
14
....
BE8681TE
.......
Cable 3m.
To replace liner: Disconnect gun cable assembly from the
euro
adaptor on the
machine case, remove nozzle (1) and head (3). Withdraw
old
liner from the wire feeder
end. insert new liner and refit gun cable assembly to Euro adaptor
on
the machine case.
At the gun end, compress the liner within the gun cable, then cut
it
one contact tip length
past the end of the body tube
(9).
Refit head,
tip
and nozzle.
FIGURE 12. BEXT2-4E240AE GUN
&
CABLE ASSEMBLY
Page is loading ...
Page is loading ...
Page is loading ...
Page is loading ...
  • Page 1 1
  • Page 2 2
  • Page 3 3
  • Page 4 4
  • Page 5 5
  • Page 6 6
  • Page 7 7
  • Page 8 8
  • Page 9 9
  • Page 10 10
  • Page 11 11
  • Page 12 12
  • Page 13 13
  • Page 14 14
  • Page 15 15
  • Page 16 16
  • Page 17 17
  • Page 18 18
  • Page 19 19
  • Page 20 20
  • Page 21 21
  • Page 22 22
  • Page 23 23
  • Page 24 24

WIA Weldmatic 210S Owner's manual

WIA
Brand
WIA
Model
Weldmatic 210S
Category
Welding System
Type
Owner's manual
Download PDF
report

Ask a question and I''ll find the answer in the document

Finding information in a document is now easier with AI

Related papers

Other documents