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Item number:T1050SIWM
WELDERTOKYO 2300
The lightweight Tokyo2300 from Vector Welding is a DC TIG welder with 10-200A in TIG mode and 10-170A in MMA (electrode) mode.
Thanks to IGBT, the Tokyo2300 has high pulse power capability and provides precise and efficient TIG welding.
The HF ignition andthe required control, power and working capacity, make it possible to perform a wide range of professional welding operations.
Tokyo2300 PROPERTIES & ADVANTAGES:
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DC TIG welding:Welding of almost all metals.
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HF ignition (TIG)
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Pulse function: in pulse welding, the welding current alternates between output and peak current at the desired frequency. The longer the intervals, the less energy and heat is supplied to the workpiece.
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2 cycle/ 4 cycle
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MMA/STICK/E-HAND: coated electrodes are used - in this process, the electrodes are arc carriers and filler metal in one.
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modern IGBT (InsulatedGate Bipolar Transistor) enables fast and thus low-loss switching of electrical currents.
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Hotstart: every time the welder is restarted, overcurrent is provided, thus supporting the ignition of the arc.
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Thanks to Arc Force, drops of molten material pass more easily from the electrode to the workpiece.
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Anti-stick automatically shuts down the welding generator if the electrode sticks to the workpiece and must be removed by hand without damaging the electrode clamp.
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Overheat protection
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9 memory locations
Tokyo2300 FEATURES:
Tokyo2300 TECHNICAL DETAILS:
| Setting rangeWelding current (TIG mode). | 10 -200 A |
| Setting rangeWelding current (MMA/STICK mode) | 10 -170 A |
| Duty cycle (ED) TIG 40°C | 200 A at 18 V 40% |
| Duty cycle (ED) MMA/STICK40°C | 170 A at 26.8 V 40% |
| Mains voltage | 1 x 230 Volt |
| Mains frequency | 50 - 60 Hz |
| Protection class | IP23 |
| Dimensions in mm (L x W x H) | 320 x 160 x 380 |
| Weight in kg | 6,5 |
| Standards | EN60974-1 / IEC60974-1 |
Tokyo2300 SYSTEM CONTROL:
| 1. on/off andoverheating indicator | 4. PULSE function | 7. hot start/Arc Force/Anti Sick |
| 2. welding mode (MMA/WIG) | 5. parameter selection | 8. JOB and SAVE |
| 3. 2 bar/4 bar | 6. display |
|
| 1. gas advance | 5. secondary current | 9. final current |
| 2. start current | 6. pulse duration (%) | 10. gas overrun |
| 3. current rise | 7. pulse frequency (Hz) |
|
| 4. primary current | 8. current decrease |
|
| Shipping weight: | 14,01 kg |
| Dimensions ( Length × Width × Height ): | 79,00 × 60,00 × 40,00 cm |
Tokyo
2300 TECHNICAL DETAILS:
| Welding current setting range (TIG
mode) |
10 -200 A |
| Setting range welding current (MMA
/ STICK mode) |
10 -170 A. |
| Duty cycle (ED) TIG 40 ° C |
200 A at 18 V 40% |
| Duty cycle (ED) MMA / STICK 40
° C |
170 A at 26.8 V 40% |
| Mains voltage |
1 x 230 volts |
| Grid frequency |
50-60 Hz |
| Protection class |
IP23 |
| Dimensions in mm (L x W x H) |
320 x 160 x 380 |
| Weight in kg |
6.5 |
| Norms |
EN60974-1 / IEC60974-1 |
- Welding machine
- TIG torch: WP-26 (gas/electricity combined connection), 4m
- 1kg TIG welding rods stainless steel
- 1kg TIG welding rods steel
- 10x tungsten electrodes (size 1,6 grey)
- Gas connection hose
- Electrode pliers 200A (9 mandrel), 3m cable
- Ground tongs (9 mandrel), 3m cable
- TIG wear parts-SET 20 pieces
▶ DISPLAY
| 1. Power on/off & Overheating indicatior | 4. Pulse function | 7. Hotstart/Arc Force/Anti Stick |
| 2. Welding mode (MMA/TIG) | 5. Parameter selection | 8. Job & Save |
| 3. 2T/ 4T | 6. Display |
▶ DISPLAY DETAILS (TIG)
| 1. Gas flow/Gas lead time | 6. Pulse width | 11. AC frequency (50-200HZ) |
| 2. Starting current | 7. Pulse frequency (HZ) | 12. AC Balance (10-30%) |
| 3. Current increase | 8. Current reduction | REM=Remote |
| 4. Primary current | 9. Final current | |
| 5. Secondary current | 10. Gas follow-up |
▶ TIG SETTING OPTIONS
Following we explain the setting options for TIG welding - setting sequence can be found in DISPLAY DETAILS (TIG). In our example we weld steel sheet with thickness 1,5mm. Please note that welding parameters are always to be adjusted individually to your project.
1. Set gas lead time (from 0.1 to 10 seconds), we choose 0.4 Sec. Rule of thumb: 0.1 seconds per meter of hose package is a good basic setting.
2. Starting current: Adjustable between 10 and 200 amps, depending on the main current selected, we choose 30 amps for our example, since we will be welding at 60 amps. This allows us to achieve a "softer" ignition, which is particularly advantageous for thin sheets. CAUTION: These settings are only active in 4T mode.
3. Current increase: Here we set the speed at which the device changes from the starting current to the main current. The adjustable range depends on the main current. In our case, we choose 0.6 seconds.
4. Primary (main) current: Relatively welding current, which is adjustable between 10 and 200 amps. In our case, we choose 60 A.
5. Secondary (base) Current: When we pulse, we can set a second current (lower) here, and our welding current will alternate between the main current and the base current permanently. The proportion can be determined.
6. Pulse width: is given as a percentage and defines the proportion of the main current, versus the base current.
7. Pulse frequency (Hz): normally the pulse frequency is in the range up to 10Hz.
8. Current reduction: Here we define the time interval in which we lower the main current to the final current. We set here again 0.6 seconds, so we prevent the formation of the final crater.
9. Final current: we choose 30A, the same value as our starting current.
10. Gas follow-up time: especially important for stainless steel, as we achieve protected cooling of the weld pool on the workpiece. Our tungsten needle is also optimally cooled.
11. AC Balance: Relevant when welding aluminum with alternating current (AC). Here we control the time ratio between the positive and negative half-wave. The display is shown as a percentage. Decreasing the balance leads to a higher penetration depth, increasing it improves the cleaning effect.
12. AC Frequency: This sets the frequency of the AC current. Displayed is the frequency in Herz, adjustable between 10 and 200. This mainly allows us to influence the flow behavior of our weld pool. A higher frequency promotes a stable arc, but reduces the power resulting in a tough pool. At a lower frequency, the arc becomes more unstable but has high power, resulting in a thin-flowing bath, which allows us to weld thin sheets and fillet welds faster.
