Fully Automatic Medical Gas Manifold (LEO-AU)

SILBERMANN fully automatic Medical Gas Manifold system 
is designed to meet the
NFPA99, or ISO 7396-1,
or HTM 02-01 or G-01 standards.

This Medical Gas Manifold system manages 2 sources and provides
continuous supply and smooth automatic bank switchover by means
of a pneumatic shuttle valve.

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  The SILBERMANN Fully Automatic
     Medical Manifold is a new approach to
     medical gas system management.

  It employs an advanced electronic system
     technology that redefines the state of the art
     for modern healthcare facilities.

 The fully automatic changeover unit is designed
    for continuous supply and smooth automatic
    bank switchover, without pressure
    fluctuation, by means of a pneumatic shuttle valve.

 In addition to the shuttle valve, the cabinet 
   contains the line pressure regulators,

   the line pressure gauge, indicators,
   and a set of 
by-pass valves for manual operation in case
   of malfunction and an electronic control board.

 The LEO-AU Model has an alarm panel with
    LED indicators for the “IN USE”, ”CAPACITY BELOW MIN
    ”and “EMPTY” banks, high/low line supply pressure, test,
    and mute the buzzer switch button.

 A facility for displaying alarms on two separate
    remote main alarm panels are provided.

 The SILBERMANN fully automatic medical gas manifold
    is designed to meet the NFPA99,

    or HTM 02-01, or ISO 7396-1 or G-01 requirements.

 Available for O2, Air, N2O, Nitrogen, CO2,
   Argon, H2, Helium, and other gas mixtures.

  Box With Door:
      Material – steel.
      Dimensions – 80x100x22 cm.
     ■  Finish – baked on powder painted.

  Piping System: All materials are oxygen compatible.

  Line Pressure Gauge: 4” diameter.

  Main Pressure Guage: 4” diameter.

  Changeover Unit: Pneumatic.

  Control Unit: Electronic (microprocessor).

  Power Supply: 220V, 50Hz.

  Indicators: Green,Yellow, and Red LEDs

  Output connections for local alarms:
    Two sets of dry contacts NO/NC.

  Flow Capacity: At 4 bar- 130 m3/hr