Olab - Testata

SERIES 400

SILENCERS IN ALUMINIUM AND PLASTIC

FLUID
SERIES 400
CE 28384 COMPATTI OTTONE

Category: BRASS FITTINGS

Notes:

  • PS:
    • 12 bar (174 psi) for brass version
    • 6 bar (87 psi) for plastic version
  • TS: -10°C ÷ +80°C (+14°F ÷ +176°F)
  • ISO 228 (BSP) cylindrical gas threads: G1/8 – G1/4 – G3/8 – G1/2 – G1 
  • ISO R/262 cylindrical metric threads: M5
  • CERTIFICATIONS: CE

Technical Data Sheet

The Series 400 silencers are designed to effectively reduce noise generated by compressed air systems, combining compact dimensions, mechanical strength, and easy installation. Available with either a nickel-plated brass body or technical plastic body, they are suitable for a wide range of industrial applications.

The filtering element is made of sintered spherical bronze or sintered stainless steel wire mesh AISI 304, with a filtration grade of 36 microns, ensuring high efficiency in airflow treatment and extended service life, even under demanding conditions.


Thanks to their compact design, these silencers can be installed in very tight spaces, minimizing footprint without compromising performance. They are available with ISO 228 BSP cylindrical gas threads in G1/8 – G1/4 – G3/8 – G1/2 – G1, and with ISO R/262 cylindrical metric thread in M5, ensuring full compatibility with various system configurations.


The brass version is rated for pressures up to 12 bar (174 psi), while the plastic version is suitable for up to 6 bar (87 psi). The operating temperature range is -10°C to +80°C (+14°F to +176°F). Fully CE certified, the Series 400 silencers offer a professional and reliable solution for all compressed air installations.
 

Technical features:

  • Silencers in aluminium and plastic
  • Nickel-plated brass or plastic body
  • Filter element in sintered spherical bronze or sintered stainless steel wire mesh AISI 304 (36-micron filtration grade)
  • Designed for professional air systems

COMPACT DESIGN
Thanks to their compact design, these components can be installed even in very tight spaces, minimizing footprint without compromising functionality or performance. Ideal for systems where every millimeter matters.

Fluids: air