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2000HA39

FIG. D

PART TO BE WELDED

The part to be welded must always be connected to earth in or-
der to reduce electromagnetic emission. Much attention must 
be afforded so that the earth connection of the part to be weld-
ed does not increase the risk of accident to the user or the risk 
of damage to other electric equipment. When it is necessary to 
connect the part to be welded to earth, you should make a di-
rect connection between the part and the earth shaft. In those 
countries in which such a connection is not allowed, connect 
the part to be welded to earth using suitable capacitors, in com-
pliance with the national regulations.

WELDING PARAMETERS

Table 3 shows some general indications for the choice of elec-
trode, based on the thickness of the parts to be welded. The 
values of current to use are shown in the table with the respec-
tive electrodes for the welding of common steels and low-grade 
alloys. These data have no absolute value and are indicative 
data only. For a precise choice follow the instructions provided 
by the electrode manufacturer.
The current to be used depends on the welding positions and 
the type of joint, and it increases according to the thickness and 
dimensions of the part.
The current intensity to be used for the different types of weld-
ing, within the field of regulation shown in table 4 is:

• 

High for plane, frontal plane and vertical upwards welding.

• 

Medium for overhead welding.

• 

Low for vertical downwards welding and for joining small pre-
heated pieces.

A fairly approximate indication of the average current to use in 
the welding of electrodes for ordinary steel is given by the fol-
lowing formula:

I = 50 × (Øe – 1)

Where:
I = intensity of the welding current
Øe = electrode diameter
Example:
For electrode diameter 4 mm

I = 50 × (4 – 1) = 50 × 3 = 150A

  TIG welding (Fig. C)

TIG welding melts the metal of the workpiece, using an arc 
struck by a tungsten electrode.
The fusion bath and the electrode are protected by gas (Argon).
This type of welding is used to weld thin sheet metal or when 
elevated quality is required.
1)  Connecting the welding cables:

• 

Connect one end of the gas hose to the gas connecter 
on the TIG torch and the other end to the Argon cylin-
der and open it.

• 

With the machine switched off:

 

- Connect the earth cable to the snap-on connector 

(positive).

 

- Connect the relative earth clamp to the workpiece or 

to the workpiece support in an area free of rust, paint, 
grease, etc..

 

- Connect the TIG torch power cable to the snap-on con-

nector marked - (negative).

2)  Adjust the welding current using the potentiometer (Pos. 4, 

Fig. A).

3)  Turn the process selector (Pos. 6, Fig. A) to the TIG posi-

tion.

4)  Start the welding machine by selecting Pos. 1 on the line 

switch (Pos. 1, Fig. A).

5)  The green LED (Pos. 5, Fig. A) shows that the power sup-

ply to the welding machine is on, and it is ready to work.

6)  Adjust the gas flow by manually turning the valve on the 

TIG torch.

7)  The “Lift” function strikes the arc when the TIG torch elec-

trode comes into contact with the workpiece and is then 
removed (see Fig. D).

8)  Carry out TIG welding.

2000HA44

FIG. C

PART TO BE WELDED

The part to be welded must always be connected to earth in or-
der to reduce electromagnetic emission. Much attention must 
be afforded so that the earth connection of the part to be weld-
ed does not increase the risk of accident to the user or the risk 
of damage to other electric equipment. When it is necessary to 
connect the part to be welded to earth, you should make a di-
rect connection between the part and the earth shaft. In those 
countries in which such a connection is not allowed, connect 
the part to be welded to earth using suitable capacitors, in com-
pliance with the national regulations.

Summary of Contents for DIX GO 1306.M

Page 1: ...DIX GO 1306 M BA 0122 TIG Welding Power Source S C H W E I S S E N W E L D I N G W E L D I N G S C H W E I S S E N S C H W E I S S E N Keep in secure area for future reference Operations manual...

Page 2: ...resists ample current variations MAX 290V and can be utilized with very long electric cables MAX 100 m Selector with 3 weld procedures Basic electrodes with Hot Start and Arc Force device Stainless s...

Page 3: ...for the installation and use of the sys tem in accordance with the producer s instructions contained in this manual Before installing the system the user must take into consider ation the potential el...

Page 4: ...ic electrodes with di ameters ranging from 1 6 mm to 4 mm 1 Connecting the welding cables Disconnect the machine from the mains power supply and connect the welding cables to the output terminals Posi...

Page 5: ...ctrode diameter 4 mm I 50 4 1 50 3 150A TIG welding Fig C TIG welding melts the metal of the workpiece using an arc struck by a tungsten electrode The fusion bath and the electrode are protected by ga...

Page 6: ...ions that are the cause of overheating The pointing out of any difficulties and their elimination The supply line is attributed with the cause of the most com mon difficulties In the case of breakdown...

Page 7: ...7 2101E636 IT Schema elettrico EN Wiring diagram FR Sch ma lectrique DE Schaltplan ES Esquema el ctrico NL Elektrisk skema PT Esquema el ctrico...

Page 8: ...ntion thermostat 9 Mont ventil 10 Potentiom tre courant 11 Redresseur secondaire 12 Redresseur primaire 13 Carte des commandes avant 14 Shunt 15 Commutateur de proc dure 16 Transformateur de puissance...

Page 9: ...9 DA Forbindelsesdiagram SV Elektiska schema FI S hk kaavio N Elektriske skjema EL RU 2101E636...

Page 10: ...on merkkivalo 9 Tuuletettu moottori 10 Virran potentiometri 11 Ensi tasasuuntain 12 Toisiotasasuuntain 13 Etupuolen ohjauskortti 14 Shunt 15 Hitsaustyypin valitsin 16 Tehon muuntaja 17 Toisiotasasuunt...

Page 11: ...sen Thermoschutz 6 M glicher Gebrauch der Anlage in Umgebung mit erh hter Gefahr elektrischer Schl ge 7 Gef hrliche Spannung 8 Schutzerde 9 Erdung 10 Schnellanschlu Pluspol 11 Schnellanschlu Minuspol...

Page 12: ...evien symbolien selitykset 1 K ynniss sammutettu katkaisija 2 Hitsaustyypin valitsin 3 Hitsausvirran asteikko 4 Vihre LED joka osoittaa s hk virran olevan p ll 5 Keltainen LED joka ilmoittaa termostaa...

Page 13: ...asenanzahl 8 Nennwert Versorgungsfrequenz 9 WIG Schwei en 10 Sekund r Leerlaufspannung 11 Zwangsluftk hlung 12 Isolationsklasse 13 Versorungsspannung 14 H chstwert des zugef hrten Nennstromes 15 Geh u...

Page 14: ...24 Registreringsnummer FI Tietokyltiss olevien symbolien selitykset 1 Valmistajan nimi ja osoite 2 Laitteen nimi 3 Yksivaiheinen MUUNNIN generaattori 4 Elektrodihitsauslaite 5 Hitsauksen tasavirta 6...

Page 15: ...ma NL Afstellen kaart controle INVERTER RT1 Afstellen van de Arc Force RT2 Afstellen van de stroom maximaal RT5 Afstellen van de opstartstroom soldeeren TIG met Lift functie RT6 Afstellen van de stroo...

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