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Download page HB-100/140/160Z61 data.
HB-100/140/160Z61 data
| Basic data | |||
|---|---|---|---|
| type | HB-100Z61 | HB-140Z61 | HB-160Z61 |
| Temperature max. | 100 °C | 140 °C | 160 °C |
| Circulating volume in unit (approx.) | 1,4 L | ||
dimensions | |||
| Height/ width/ depth | 510 mm / 190 mm / 793 mm | ||
| Weight max. | 55 kg | 59 kg | 59 kg |
| environment | |||
| Temperature | 5−40 °C | ||
| Relative humidity | 35–85 RH(non-condensing) | ||
| Continuous sound pressure level | <70 dB(A) | ||
| Surface temperature (back of the device ) | >55 °C | ||
| Cleanroom capability | «At Rest» <ISO Classe 6 (Cl. 1 000) «In Operation» ISO Classe 7 (Cl. 10 000) | ||
| temperature measurement | |||
| resolution | 0,1 °C | ||
| Control accuracy | ±0,1 °C | ||
| Tolerance | ±0,8 °C | ||
| Flow rate measurement | |||
| measuring range | 0,4–60 L/min | ||
| resolution | 0,1 L/min | ||
| Tolerance | ± (5% of measured value + 0,1 L/min) | ||
pump pressure indicator | |||
Tolerance | ±10 %of rated value | ||
| Hydraulic data | |||
|---|---|---|---|
| connection | HB-100Z61 | HB-140Z61 | HB-160Z61 |
Main line, Return line | |||
thread | G¾ | G¾ | G¾ |
Resistance (including external heat transfer circuit) | 20 bar, 120 °C | 20 bar, 160 °C | 20 bar, 180 °C |
| cooling water | |||
| Pressure | 2–5 bar ** | ||
| thread | G⅜ | ||
| Resistance | 10 bar, 100 °C | ||
| Separate system water | |||
| Pressure | 2–5 bar ** | ||
| thread | G¼ | ||
| Resistance | 10 bar, 100 °C | ||
| compressed air (additional equipment ZG) | |||
| Pressure | 2–8 bar * | ||
| thread | G¼ | ||
| Resistance | 10 bar, 100 °C | ||
* Mould emptying is more efficient with higher compressed air.
** We recommend a pressure differential of at least 2 bar between cooling water inlet and outlet. A smaller difference reduces the cooling capacity and extends the venting process.
| Electrical data | |||
|---|---|---|---|
| residual current circuit-breaker | We recommend using a type B residual current circuit breaker (RCD), as the temperature control units are equipped with a frequency converter. Type A RCD are not suitable. The leakage current is max. 5 mA per unit. | ||
| Mains cable to unit | 3LPE, 4 m (Standard) H07RN-F (Standard) /H07BQ-F (CE) SO/SOW/SOOW (UL/CSA) | ||
| cross-section | 400/460 V 8 kW: 4x2,5 mm2 (CE) / 4xAWG 12 (UL/CSA) 220 V 8 kW: 4x6,0 mm2 (CE) / 4xAWG 10 (UL/CSA) | ||
| Network system | |||
| TN-System A network system with a grounded protective conductor is common in Europe. The unit can be connected to this network system and operated without additional measures. | ||
| High-Leg-Delta-System A grid system in which a midpoint is grounded between two phases is common in Asia and North America. Starting with software-version SW61-1_2401, The unit can be connected and operated to this network system without additional measures. | ||
| Corner-Grounded-Delta-System A grid system in which one phase is grounded is common in Asia and North America. Starting with software-version SW61-1_2401, The unit can be connected and operated to this network system without additional measures. | ||
| IT-System In a network system without a galvanic connection between active conductors and grounded parts, additional measures are required:
operation without IT screws poses no safety risk, but EMC interference emissions can increase. Compliance with EMC limits is the responsibility of the operator. | ||
| Heating capacity | The heating capacity is valid at Mains voltage (220 V, 400 V, 460 V) with internal heating capacity limitation and varies by max. ± 10% within the specified voltage range. | ||
| Mains voltage | see nameplate on the unit | ||
| maximum fusing | see nameplate on the unit | ||
| Rated short circuit current | 6 kA (Imax ≤ 63 A) | ||
| Overvoltage category | II | ||
| Degree of contamination | 2 | ||
| Protection class | IP 44 | ||
