PARKSIDE® Inverter Welding Machine, PISG 120, 120 A

Welding method: Inverter
Welding current: 10-120 A
Material thickness: 1.5 - 3.0 mm

✓ Homogeneous assembly of stainless steel and cast materials
✓ With a higher tolerance for position changes
✓ Electronically regulated welding arc, quiet and consistent
✓ Built-in fan

Features

• Innovative inverter technology for better welded assemblies than traditional devices
• Homogeneous assembly of steel, stainless steel and cast iron materials
• Lightweight - ideal for mobile use
• Electronically regulated welding arc, quiet and consistent
• With greater tolerance to changes in position, the electric arc remains stable for longer.
• Overload protection via thermostat with indicator light
• 2.0 m welding cable with electrode holder (for Ø 1.6-2.5 mm)
• 2.0 m ground cable with powerful clamp
• Powder-coated metal case with adjustable length carrying strap
• Built-in fan
• Suitable for all standard stainless steel, cast iron and basic rod electrodes

Accessories included: 1 welding screen, 1 combination wire brush with hammer, 5 welding electrodes (sizes: 2 x 1.6 mm; 2 x 2.0 mm and 1 x 2.5 mm), 1 carrying strap

Technical specifications

• Input power: 3,300 W (at 230V)
• Open circuit voltage: 66 V
• Welding current: max. 10 A / 18.4 V - 120 A / 22.8 V
• Continuously adjustable range 10 - 120 A
• EMC Class A
• Electrode thickness: 1.6 - 2.5 mm
• Thickness of material that can be welded: 1.5 - 3.0 mm
• Power cord length: 4 m
• Welding cable with electrode holder: 2 m
• Ground cable with clamp: 2 m

Materials

Sheet steel, plastic, stainless steel

Dimensions

• Welding station: approximately 24 x 9.7 x 17.8 cm
• Panel with handle mounted: approximately 34.5 x 19.6 x 6 cm
• Hammer with brush: approximately 17.8 x 2.1 x 6.7 cm

Weight

• Welding station: approximately 2,250 g
• Slag hammer with brush: approximately 62 g
• Shield with mounted handle: approximately 155 g

Remarks

This Class A welding machine is not intended for use in residential areas where the power supply is provided by a low-voltage public power system. Electromagnetic compatibility may be difficult to achieve in these areas due to conduction and radiation interference.