Eksisterende pumpe - Cirkulation
Udskiftningspumpe - Konventionel Udskiftningblad
Bemærkninger
Produktinformation
Atmos GIGA-I 150/380-45/4
Konstruktion
Tørløberpumpe i inline-konstruktion med flangeforbindels.e
Anvendelse
Pumpning af opvarmningsvand (iht. VDI 2035), koldt vand og vand-glykol-blandinger uden slibende substanser i varmtvands-, koldtvands- og kølesystemer.
Tekniske data
- Tilladt temperaturområde for pumpemediet -20 °C til +140 °C
- Maks. omgivelsestemperatur 40 °C
- Nettilslutning 3~400 V, 50 Hz (andre på forespørgsel)
- Kapslingsklasse IP55
- Nominel diameter DN 32 til DN 250
- Standardversion til driftstryk: 13 bar (til +140 °C)/16 bar (til +120 °C)
- Pumpehus og lanterne: Standard: EN-GJL-250;
- Pumpehjul: Standard: EN-GJL-200; specialudførelse: Bronze CuSn 10 rustfrit stål 1.4408
- Aksel: 1.4122
- Akseltætning: AQEGG, andre glideringstætninger på forespørgsel
Et-trins lavtrykscentrifugalpumpe i inline-konstruktion med:
- Akseltætning
- Flangetilslutning med trykmålingstilslutning R 1/8
- Lanterne
- Kobling
- IEC-standardmotor
- Pumpe
- Monterings- og driftsvejledning
- Complete kit.
- For mounting on foundations.
- Comes in a bag.
- Thickness: 2 mm.
- Inner diameter: 168 mm.
- Outer diameter: 225 mm.
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.
The sensor measures the differential pressure between the suction ports and discharge ports to the pipes, and converts this into an electrical signal 4-20 mA, which is used by the frequency converter to regulate the pressure of the pump. The value of the output current is proportional to the differential pressure.