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Brand: Toshweld
Toshweld 9.7kVA 3-Phase IGBT Inverter MIG Welding Machine, 315A CO2 Welder External Feeder, MIG/ARC 315 F
SKU: TI-T1-72155
Estimated Delivery By: May 24 - May 26 
MRP : ₹53911 ₹44926
17% OFF!
Estimated Delivery By: May 24 - May 26 Easy Return
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₹44926 (Including GST)
MRP : ₹53911
17% OFF!
Get Extra ₹674 OFF on Prepaid Orders
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Short Description
A professional 315A three-phase industrial inverter MIG/MAG welding station powered by robust IGBT technology and a 9.7kVA capacity. Features a detached external wire feeder to deliver seamless heavy structural fabrication.
Country of origin: China
Specifications
- Brand: Toshweld
- Weight (Approx.) : 21 kg
- Output Current Range : 315 amp
- Technology : IGBT
- Model Number: MIG / ARC 315 F
- Machine Type: Industrial Inverter MIG / MAG / MMA Multi-Process Welder
- Technology Core: Industrial IGBT Inverter System
- Phase Support: Three Phase (3 Phase)
- Input Voltage (V): AC415V±15%
- Input Power Capacity: 9.7 kVA
- Output Current Range: 30 – 315 A
- Maximum Output Voltage Adjustment: 26.5 V
- Wire Feeder Speed Range: 2.0 – 24.0 mtr/min
- Compatible Mig Wire Diameter: 0.6 mm – 1.0 mm
- Power Factor Value: 0.93
- Overall Dimensions: 20 x 8 x 15 Inches
Description
The Toshweld MIG/ARC 315 F is a heavy-duty industrial multi-process inverter welding station designed for continuous car assembly, workshop production lines, and high-output structural construction yards. This machine produces a very consistent, spatter-free welding arc throughout a flexible output current range of 30 to 315 Amps thanks to a sophisticated, continuous-duty IGBT Inverter System. It uses an independent external wire feeder station and runs smoothly on an industrial three-phase 415V AC power supply with a strong 9.7kVA input capacity. This detached design reduces torch weight and significantly improves workspace mobility, enabling operators to cleanly drive solid or flux-cored wires with diameters ranging from 0.6mm to 1.0mm while moving around big structural weldments with ease.
Features
:- High-frequency switching maximizes arc response and metal puddle consistency while reducing core power loss in an advanced IGBT inverter setup.
- Detached External Wire Feeder: By isolating wire reel friction, the modular wire feeder cage lessens torch fatigue and enables fabricators to move further from the power supply.
- Rapid Wire Feeding Velocity: For quick metal deposition rates, the stepless wire drive mechanism provides precise speed adjustments between 2.0 and 24 meters per minute.
- Stable Industrial Three-Phase Power: Designed to withstand intense fabrication workloads, this system uses balanced 415V three-phase grid mapping to avoid arc stuttering or voltage drops.
- Dual Digital Control Panels: Equipped with separate, high-visibility, real-time digital tracking displays for output current and welding voltage.
- High Power Factor Efficiency: To optimize utility, it has a superior 0.93 power factor rating.
Applications
:- Heavy Vehicle & Trailer Assembly: Constantly manufacturing industrial chassis configurations, agricultural cargo beds, and commercial trailer frames.
- Welding and joining structural angle iron, channel beams, columns, warehouse mezzanines, and industrial steel trusses are examples of medium-to-heavy structural steelwork.
- Manufacturing seamless, low-distortion seams on carbon steel, stainless steel, and low-alloy storage enclosures or containers is known as industrial sheet metal operations.
- Maintenance and Restoration of Machinery: On-site repair of warehouse gates, earthmoving tool buckets, large structural metal brackets, and machinery casings.
Usage
:- Before wiring up the main terminal block, make sure your production facility has a reliable, properly grounded three-phase AC 415V electrical connection.
- Connect the gas, control, and power lines between the external wire feeder cabinet assembly and the primary power base in a secure manner.
- Attach a corresponding spool of welding wire (0.6–1.0 mm) to the spindle hub and feed the strand into the torch liner via the drive rollers.
- Start the primary power system, check the two digital screens, and use the separate control dials to adjust the wire feed pace and output voltage.
- To maintain healthy component heat ventilation during continuous structural welding lines, keep the integrated high-velocity cooling fan intake ports fully unobstructed.
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