Print
Spheraxial pressure regulator for oxygen pipelines - DET170
Specialty gas systems > Oxygen pipelines > Pressure regulators
DET170 is a diaphragm type pressure regulator with body and internal parts made of copper-aluminum dedicated to control the downstream pressure in a gas distribution system. The regulator is suitable for oxygen distribution at high flow rates. It is particularly suited for combustive gases, pure gases and oxidizing gases.
Key advantages
  • One direction shown by an arrow
  • Leakage class IV-1
  • Pressure up to 100 bar
  • Oil free standard
  • Minimum pressure losses under medium pressure
Specifications
Operating press. range (ps)0 to 64 bar
Operating temp. range (ts)-20 to +60 °c
Direction of flowOne direction as shown by the arrow on the regulator body
InstallationAll positions
Lackage classTaux A (acc. to EN 12266-1) or IV-1 (acc. to DIN3230 STD)
Seat diameter025 mm (1”); 065mm (2”1/2)
Material (envelope)Copper-Aluminium (CuAl)
Material (o-ring)FPM
Material (seat/guiding)PCTFE
Electrical conductivityThrough a spring inside the plug
Production testsIndividual tests (hydraulic at 150 bars leaktightness at 110 bars)
Upstream flange det170-1”DN25 to DN200 (PN64)*
Upstream flange det170-2,5”DN80 to DN200 (PN64)*
Face and finishRF (Raised Face), FF (Flat Face)**
Dimensional drawings
Drawing
Product Configurator
type
Seat diameter
Flow limit
Upstream connection (dn)
Downstream connection (dn)
Pressure number (pn)
Flange type
material
Safety plug valve
DET170
1"
K---
25
25
50
FF
CU AL
0
 
25 mm
1"
65 mm
2,5"
K---*
K---
-
DN25
25
DN50
50
DN65
65
DN80
80
DN100
100
DN125
125
DN150
150
DN200
200
DN25
25
DN50
50
DN65
65
DN80
80
DN100
100
DN125
125
DN150
150
DN200
200
PN50
50
PN64 (STD)
64
PN100
100
Other on demand
Flat Face
FF
Raised Face
RF
Other on demand
CopperAluminium
CU AL
With (STD)
0
Without
-
Downloadable catalogs, brochures
  • Download
    Merobel Valves and Regulators
    Last update: May 17, 2021
    Available in: en
Connect with an Expert
×
Loading

This site uses cookies.

Rotarex uses cookies to ensure a better and easier online experience. Please click here to accept the continued use of these cookies after reading our revised COOKIES POLICY.

Please note, you may continue to use the website even if you do not accept the use of cookies. However, the visitor experience on subsequent visits will be diminished.

Read the full COOKIES POLICY.