HANSA-FLEX AG
You are using Internet Explorer.
Deactivate the compatability mode if necessary, to experience the catalog the best way.

search Find

Search help

English

Select language

Date: 2017-10-19

K-PRAEZI DRG MANO HANSA

Precision pressure regulators
Hide product imageProduct image
K-PRAEZI DRG MANO HANSA data/img/product/00042630_0.gif - K-PRAEZI DRG MANO HANSA
Hide propertiesProperties
Input pressure Max. 16 bar
Temp. range -10 °C to +50 °C
Media Compressed air
Connection thread Material: Die-cast zinc
Housing Material: Grivory® (PA 66)
Diaphragm NBR
Internal air consumption 2.6 l/min at P2 = 6 bar (depending on secondary pressure)
Flow rate measurement At P1 = 10 bar, P2 = 6.3 bar and pressure drop Δp = 1 bar
Hide descriptionDescription

Precision diaphragm pressure regulators with self-relieving design and excellent flow rates in modern design for applications requiring an extremely accurate working pressure. The regulator button can be latched and locked.

Hide informationNote

Further information on request

Hide product tableItem

Sort upwards

Sort downwards

Hide ordering informationOrdering information

The price does not include a key lock. Please order separately.

Hide product accessoriesAccessories
K-STECKSCHLOSS
Key lock
Hide product spare partsSpare parts
K-HALTERBAUSATZ HANSA
Holder HANSA
K-SCHALTTAFELMUTTER HANSA
Nut HANSA
K-DICHTSATZ HANSA
Set of seals HANSA
Disclaimer

Despite careful checking, we cannot guarantee the accuracy of all information included on this site, and we accept no liability.
All data and information in our online catalogue are based on currently valid standards and the regulations from the employer's liability insurance association. Product safety can only be guaranteed when our assembly instructions are carefully observed. Non-adherence to these regulations can affect product operation and functioning and result in a loss of warranty. Our warranty is only valid for HANSA-FLEX products. Our products are constantly subject to further development and technical changes are therefore possible.