Esošais Sūknis - Cirkulācija
Nomaiņas sūknis - Parastais Apmaiņats komplekts
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Produkta informācija
Atmos GIGA-I 50/140-5,5/2
Inline konstrukcijas sausā rotora sūknis ar atloka savienojumu.
Pielietojums
Apkures ūdens (saskaņā ar VDI 2035), aukstā ūdens un ūdens glikola maisījumu bez abrazīvām sastāvdaļām sūknēšanai apkures, aukstā ūdens un dzesēšanas sistēmās.
Tehniskie parametri
- Pieļaujamais šķidruma temperatūras diapazons -20 °C līdz +140 °C
- Maks. apkārtējā gaisa temperatūra: 40 °C
- Elektrotīkla pieslēgums 3~400 V, 50 Hz (citi pieejami pēc pieprasījuma)
- Aizsardzības pakāpe IP55
- Nominālais diametrs DN 32 līdz DN 250
- Standarta modelis, paredzēts darba spiedienam: 13 bar (līdz +140 °C) / 16 bar (līdz +120 °C)
- Sūkņa korpuss un kupols: Standarts: EN-GJL-250;
- Darba rats: Standarts: EN-GJL-200; speciālais modelis: Bronza CuSn 10, nerūsējošais tērauds 1.4408
- Vārpsta: 1.4122
- Gala blīvējums: AQEGG; citi gala blīvējumi pēc pieprasījuma
Vienrindas vienpakāpes zemspiediena centrbēdzes sūknis ar:
- Gala blīvējums
- Atloka pieslēgumu un spiediena mērīšanas pieslēgumu R 1/8
- Starpkorpuss
- Savienojuma elements
- IEC standarta motors
- Sūknis
- Uzstādīšanas un ekspluatācijas instrukcija
- Made of steel.
- Counter flanges (weld) are delivered complete (in pairs) with bolt, nut and flange gasket.
- Thickness: 2 mm.
- Inner diameter: 61 mm.
- Outer diameter: 96 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.