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Original Language Version

TIG161HFACDC    Issue: 1 - 03/11/11

 

The TIG161HFACDC is microprocessor controlled allowing the setting of a high number of parameters enabling the operator to make an optimal weld  

 

 

under most conditions and with most materials. 

4.1 

SELECTION OF WELDING PARAMETERS.

4.1.1  Use the BUTTON AND ENCODER to step through the parameters until you reach the one you wish to adjust. The parameter is active when the LED  

 

 

adjacent to the symbol is either illuminated or flashing depending on whether the first function or second function has been selected. The value to be  

 

 

adjusted will appear in the ALPHANUMERIC DISPLAY.

4.2

 

ALARM CONDITION.

 (fig.9 item 1)

 

Yellow LED, normally off; when lit, it indicates the blocking of the welding machine due to the intervention of one of the following protections: 

 

“AL.1”

 Fault in primary power supply; power supply voltage is outside the required range.

 

“AL.2”

 One of the safety thermostats has cut in due to the machine overheating. The machine will return to normal operation automatically when it has  

 

 

cooled down.

4.3 

OUTPUT VOLTAGE.

 (fig.9 item 2)

 

Green LED indicates output voltage presence.

4.4

 

TIG/MMA MODE SELECTOR.

 (fig.9 item 3)

 

Operating mode: TIG 2-STROKE, TIG 4-STROKE and MMA modes.

4.5

 

TIG MODE SELECTOR.

 (fig.9 item 4)

 

Operating mode: TIG DC with HF striking, TIG DC with LIFT, TIG AC striking.

4.6 

BUTTON AND ENCODER.

 (fig.9 item 5)

 

For the selection and setting of welding parameters. Allows the selection of one of the available parameters associated with welding mode/current indicated  

 

by the illumination of one of the LEDs (fig.9 items 6 -10)

4.7 

POST GAS/BALANCE LED. 

(fig.9 item 6)

4.7.1 

POST GAS.

 First function (Black field, fixed LED):

 

In TIG DC mode, this function allows adjustment of the post gas timing in seconds.

4.7.2 

BALANCE.

 Second function (Yellow field, flashing LED):

 

In the pulsed TIG AC/DC mode, this function  allows adjustment of the BALANCE. This parameter represents the relationship in percentage between the    

 

time during which the current is at the greater level 

I

2

 and the total pulsing period. Furthermore, in the TIG AC mode (with pulsing disabled), the parameter   

 

represented indicates the relationship between the time during which the current's polarity is EN (negative electrode) and the total period of the alternate    

 

current. The greater the positive value, the deeper the weld penetration (fig.10).

4.8 

END SLOPE/FREQUENCY LED.

 (fig.9 item 7)

4.8.1 

END SLOPE.

  First function (Black field, fixed LED):

 

In the TIG AC/DC mode, this function allows adjustment of the welding current's END SLOPE upon the release of the torch pushbutton. This adjustment    

 

avoids the formation of a crater at the end of the weld and permits filling during the current down slope.

4.8.2 

FREQUENCY.

 Second function (Yellow field, flashing LED):

 

In TIG AC/DC PULSED mode this function allows the setting of the pulse frequency. In TIG AC with pulsing disabled, adjustment of the frequency in AC is    

 

allowed. 

4.9

 

MAIN CURRENT/PULSED MODE OPERATION LED.

 (fig.9 item 8)

4.9.1 

MAIN CURRENT.

 First function (Black field, fixed LED):

 

In TIG DC and MMA modess, this function allows adjustment of the welding current's mean value. In TIG AC mode, adjustment of the welding current's  

 

 

effective value is allowed.

4.9.2 

PULSED MODE OPERATION.

 Second function (Yellow field, flashing LED): 

 

In TIG AC/DC mode, this function activates the PULSED operation and allows adjustment of the second level current 

I

1

, which can be altenated with the    

 

main current 

I

2

 in the pulse. The value of current

 I

1

 can vary between the minimum and the main welding current value 

I

2

. In order to disable the PULSED   

 

operation, rotate the ENCODER (fig.9 item 5) in an anti-clockwise direction until the message 'OFF' is displayed on the ALPHANUMERIC DISPLAY 

 

 

(fig.9 item 11).

4.10  INITIAL CURRENT/BI-LEVEL LED.

 (fig.9 item 9)

4.10.1 

INITIAL CURRENT.

 First function (Black field, fixed LED):

 

In the TIG 4-stroke mode, this function allows adjustment of the initial current which is maintained while the torch pushbutton remains pressed.

4.10.2 

BI-LEVEL.

 Second function (Yellow field, flashing LED):

 

In TIG 4-stroke mode, this activates the BI-LEVEL function and allows adjustment of the second-level current permitting manual selection (from the torch    

 

pushbutton during the welding operation) between two current levels: 

I

2

 and 

I

1

The 

I

2

 main level current is defined by the welding current set, where as    

 

level 

I

1

 can be changed by means of the ENCODER (fig.9 item 5), between the current's minimum value and the value of the main welding current.  

 

 

In order to disable the operation in BI-LEVEL, rotate the ENCODER (fig.9 item 5) in an anti-clockwise direction, until the message 'OFF' is displayed on the  

 

ALPHANUMERIC DISPLAY (fig.9 item 11). 

4.11  ARC FORCE & PREGAS/ELECTRODE PREHEATING.

 (fig.9 item 10)

4.11.1 

ARC FORCE.

 First function (Black field, fixed LED):

 

In the MMA mode, it allows adjustment of the ARC FORCE dynamic over-current (adjustment 0-100%) with indication on display of the percentage increment  

 

as compared with the pre-selected welding current's value. This adjustment improves the fluidity of the welding and prevents the electrode sticking to the    

 

piece. 

PREGAS.

 In the TIG mode, this function allows the adjustment of the PREGAS time in seconds.

4.11.2 

ELECTRODE PREHEATING.

 Second function (Yellow field, flashing LED): 

 

In TIG mode, AC represents the result of the current multiplied by the Tungsten electrode preheating time from when the arc is switched on.

4.12  ALPHANUMERIC DISPLAY.

 (fig.9 item 11)

 

Shows selected parameter values and alarm conditions.

  5.    TIG WELDING PRINCIPLES & FEATURES 

 

If you have no welding experience we recommend that you seek training from an expert source before using this equipment. Good TIG welding may only   

 

be achieved with continued supervised practice. 

Before commencing welding read the safety instructions in Section 1.

5.1 

TIG WELDING - GENERAL PRINCIPLES OF OPERATION. 

(For a concise explanation of the facilities of the TIG161HFACDC refer to Section 4. Control   

 

Panel)

5.1.1  TIG welding is a welding procedure that exploits the heat produced by the electric arc that is struck and maintained between a non-consumable electrode   

 

(Tungsten) and the workpiece to be welded. The Tungsten electrode is supported by a torch suitable for transmitting the welding current to it and protecting  

 

the electrode itself and the weld pool from atmospheric oxidisation, by the flow of an inert gas (usually Argon Ar 99.5) which flows out of the ceramic nozzle.

5.1.2  Welding is achieved by fusion of the edges of the joint. For properly prepared thin workpieces (up to 1mm) weld material is not needed. For thicker  

 

 

workpieces it is necessary to use filler rods of the same composition as the base material and with an appropriate diameter, preparing the edges correctly.  

 

To achieve a good weld the workpieces should be carefully cleaned and free of oxidation, oil, grease, solvents etc.

5.2

 

HF STRIKE.

5.2.1

 

The electric arc is struck without contact between the electrode and the workpiece being welded, by means of a spark generated by a high frequency  

 

 

device. This strike mode does not entail either Tungsten inclusions in the weld pool or electrode wear and gives an easy start in all welding positions.

5.3 

LIFT STRIKE.

5.3.1

 

The electric arc is struck by moving the electrode away from the workpiece to be welded. This strike mode causes less electrical-radiation disturbance and  

 

reduces Tungsten inclusions and electrode wear to a minimum.

Summary of Contents for TIG161HFACDC

Page 1: ...INSTRUCTIONS FOR TIG MMA HF ACDC INVERTER WELDER 160Amp 230V TIG161HFACDC MODEL No Original Language Version TIG161HFACDC Issue 1 03 11 11 ...

Page 2: ...ator may be dangerous and will invalidate the warranty on the Inverter WARNING The Inverter may produce voltage surges in the mains supply which can damage other sensitive equipment e g computers To avoid this happening it is recommended that the Inverter is connected to a power supply that does not feed any sensitive equipment 1 2 GENERAL SAFETY DANGER Unplug the inverter from the mains power sup...

Page 3: ...ass fitting at end of torch cable will be screwed to brass fitting on lower front panel see fig 3 item 4 3 3 2 WORK CLAMP CABLE Dinse plug at end of the clamp cable will be connected to the positive socket on lower front panel see fig 3 item 1 Please note that the way the welding cables are connected to the inverter for ordinary ARC welding may be different to the way the cables are connected for ...

Page 4: ... 5 3 1 30 60 1 6 5 3 4 1 1 5 70 100 1 6 9 5 3 4 1 5 2 90 110 1 6 9 5 4 1 5 2 0 3 120 150 2 4 9 5 6 2 3 4 140 190 2 4 9 5 11 5 6 3 0 TIG WELDING PARAMETERS FOR DEOXIDATED COPPER DC Thickness Current Electrode Nozzle Argon Filler Rod mm A diam mm diam mm L min diam mm 0 3 0 8 15 60 0 5 1 6 5 4 1 50 100 1 0 9 5 6 1 5 1 5 30 60 1 6 9 5 8 1 5 2 0 70 100 1 6 9 5 8 1 5 TIG WELDING PARAMETERS FOR ALUMINIU...

Page 5: ...ate the ENCODER fig 9 item 5 in an anti clockwise direction until the message OFF is displayed on the ALPHANUMERIC DISPLAY fig 9 item 11 4 10 INITIAL CURRENT BI LEVEL LED fig 9 item 9 4 10 1 INITIAL CURRENT First function Black field fixed LED In the TIG 4 stroke mode this function allows adjustment of the initial current which is maintained while the torch pushbutton remains pressed 4 10 2 BI LEV...

Page 6: ...ments during welding 6 1 2 Press the torch pushbutton to verify the correct gas outflow from the torch Adjust the PRE GAS and POST GAS timings to suit the welding operation In particular the gas delay must be such as to permit the cooling off of the electrode and the weld pool without them coming into contact with the atmosphere oxidisations and contaminations at the end of welding 6 2 Striking th...

Page 7: ...ing on the orientation of the workpiece itself Higher current values will be used for flat welding whereas the current will have to be reduced for vertical or overhead welding 7 6 ARC FORCE When using the optional remote control with two potentiometers See INV TIG 7 in section 3 6 on remote controls an additional parameter of arc force becomes available Arc force relates to the dynamic behaviour o...

Page 8: ...d in these instructions In particular the spark gaps of arc striking and stabilising devices should be adjusted and maintained according to these instructions 10 6 Welding cables The welding cables should be kept as short as possible and should be positioned close together running at or close to the floor level 10 7 Equipotential bonding Bonding of all metallic components in the welding installati...

Page 9: ...out prior notice IMPORTANT No liability is accepted for incorrect use of this product WARRANTY Guarantee is 12 months from purchase date proof of which will be required for any claim INFORMATION For a copy of our latest catalogue and promotions call us on 01284 757525 and leave your full name and address including postcode 11 ratings plate symbols Detailed technical data relative to the performanc...

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