Description
|
Technical data |
| Power (P) |
22 kW
|
| MF Frequency Range |
10 – 25 kHz
|
| Voltage (U) |
400 V
|
| Current Type |
Three-phase AC
|
| Amperage (I) |
32 A
|
| Power Frequency (f) |
50 – 60 Hz
|
| Dimensions Display |
3.5”
|
| Dimensions of Generator [LxWxH] (mm) |
600 x 300 x 600
|
| Weight (≈m) |
46 kg
|
|
Functions |
| Forced Air Cooling | + |
| Temperature Measurement |
for type K thermocouple
|
| Accuracy |
± 3.5 °C / ± 6.3 °F
|
| Inductor Recognition |
+
|
| Temperature Sensor |
yes, for max 300 °C / 572 °F
|
| Extra Thermocouple Input |
+
|
| Heat Curve in Display |
+
|
| Setpoint Power |
via touchscreen
|
| Setpoint Temperature |
via touchscreen
|
| Setpoint Temperature curve |
+
|
| Setpoint Timer |
via touchscreen
|
| Selection Operating Mode |
via touchscreen
|
| Digital Readings Temperature |
Setpoint and actual value on touchscreen
|
| Digital Readings Time |
Setpoint and actual value on touchscreen
|
| Digital Readings Power |
Actual value on touchscreen
|
| Digital Readings Frequency |
Actual value on touchscreen
|
| USB Connection |
—
|
| Network Connection |
—
|
| Heating Log |
—
|
|
Additional information |
| Signaling by ... | Installation in operational state: green flash light |
| Signaling by ... |
Error message: red continuous light/acoustic signal
|
| Signaling by ... |
End of heating cycle: green continuous light/acoustic signal
|
| Trolley |
Option
|
| Signal Tower |
Option
|
| General features |
| Technology | Medium-Frequency Technology (Converter, Inverter, Resonant Capacitor) |
| Cooling | Air-cooled system (no cooling water required) |
| Operation | 3.5-inch touchscreen with temperature control and adjustable power regulation |
| Applications |
| Target Components | Suitable for mounting and dismounting bearings, inner rings, housings, labyrinth rings, couplings, and gear wheels. |
| Heavy Industry | Capable of heating very large or heavy workpieces, such as main bearings and wind turbine housings. |
| Sector Use | Ideal for maintenance in industrial environments, specifically for replacing drive components. |
| Versatility | Can be used with flexible or fixed inductors depending on the geometry of the workpiece. |
| Benefits |
| Efficiency | Heats faster and is more energy-efficient than conventional methods (furnaces, oil baths, gas burners). |
| Safety | Temperature-controlled heating prevents overheating damage; automatic reduction of residual magnetism improves operational reliability. |
| Preservation | Contact-free heating maintains original bearing lubrication and prevents damage, increasing service life. |
