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OEM#: 1011-3429-000New OEM Original Outright

OXYGEN FLOW CONTROL VALVE by Datex-Ohmeda

Your price:
$250.75 eachReady to ship
HomeDatex-Ohmeda10113429000
OXYGEN FLOW CONTROL VALVE by Datex-Ohmeda
OXYGEN FLOW CONTROL VALVE by Datex-Ohmeda

OEM#: 1011-3429-000
OXYGEN FLOW CONTROL VALVE by Datex-Ohmeda

New OEM Original Outright
Your price:
$250.75 each
Ready to ship
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Drop Shipped From GE - Not For Export Out Of US

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Product Overview

The Flow Control Valve comes as a part of the Alternate Oxygen manifold in Breathing Circuit Gas (BCG) of an anesthesia delivery system. It is used to control the oxygen gas flow through the Medium Pressure Oxygen Service (MPOS) manifold where, pressure is in the range of 50 to 3000 kPa and which, is provided as a part of the unit. The assembly comes into contact with oxygen-enriched gas, a mixture that contains more than 23.5% volume fraction of oxygen. The components are corrosion resistant, despite these conditions and hence it is highly efficient to use in medical environments. The valve consists of a shaft. The clockwise rotation of the flow control shaft reduces the flow. When the shaft is at the minimum stop, the flow from the outlet port is 510-685 mL/min and at the maximum stop, flow is 11.0-12.75 L/min. In and Out ports are permanently identified in position and orientation.

Features
  • Does not contain Cadmium (Cd) more than 0.01% by weight and Lead (Pb), Mercury (Hg), Hexavalent Chromium, Poly Brominated Biphenyl (PBB) and Poly Brominated Diphenyl Ethers (PBDE) more than 0.1% by weight
  • Cleaned to specified levels of hydrocarbon agents (i.e., oils, grease, etc.), particulates (dust, dirt, lint, fibers, paper, rust, etc.) and other foreign materials on the surface or in the internal passages
  • Packaged individually to avoid damage due to rubbing or shifting during transit
  • ROHS compliant
  • Fast signal transmission
  • Good structural design
  • Highly insulated
  • Made of high quality material
Technical Specs
P/N: 1011-3429-000 Key Specs
Item
OXYGEN FLOW CONTROL VALVE
OEM
Datex-Ohmeda
OEM #
1011-3429-000
Condition
New OEM Original
Returnable
No
Warranty
90 Day
Standards and Approvals
RoHS

The Flow Control Valve comes as a part of the Alternate Oxygen manifold in Breathing Circuit Gas (BCG) of an anesthesia delivery system. It is used to control the oxygen gas flow through the Medium Pressure Oxygen Service (MPOS) manifold where, pressure is in the range of 50 to 3000 kPa and which, is provided as a part of the unit. The assembly comes into contact with oxygen-enriched gas, a mixture that contains more than 23.5% volume fraction of oxygen. The components are corrosion resistant, despite these conditions and hence it is highly efficient to use in medical environments. The valve consists of a shaft. The clockwise rotation of the flow control shaft reduces the flow. When the shaft is at the minimum stop, the flow from the outlet port is 510-685 mL/min and at the maximum stop, flow is 11.0-12.75 L/min. In and Out ports are permanently identified in position and orientation.

    Product Overview

    The Flow Control Valve comes as a part of the Alternate Oxygen manifold in Breathing Circuit Gas (BCG) of an anesthesia delivery system. It is used to control the oxygen gas flow through the Medium Pressure Oxygen Service (MPOS) manifold where, pressure is in the range of 50 to 3000 kPa and which, is provided as a part of the unit. The assembly comes into contact with oxygen-enriched gas, a mixture that contains more than 23.5% volume fraction of oxygen. The components are corrosion resistant, despite these conditions and hence it is highly efficient to use in medical environments. The valve consists of a shaft. The clockwise rotation of the flow control shaft reduces the flow. When the shaft is at the minimum stop, the flow from the outlet port is 510-685 mL/min and at the maximum stop, flow is 11.0-12.75 L/min. In and Out ports are permanently identified in position and orientation.

    Features
    • Does not contain Cadmium (Cd) more than 0.01% by weight and Lead (Pb), Mercury (Hg), Hexavalent Chromium, Poly Brominated Biphenyl (PBB) and Poly Brominated Diphenyl Ethers (PBDE) more than 0.1% by weight
    • Cleaned to specified levels of hydrocarbon agents (i.e., oils, grease, etc.), particulates (dust, dirt, lint, fibers, paper, rust, etc.) and other foreign materials on the surface or in the internal passages
    • Packaged individually to avoid damage due to rubbing or shifting during transit
    • ROHS compliant
    • Fast signal transmission
    • Good structural design
    • Highly insulated
    • Made of high quality material
    Technical Specs
    P/N: 1011-3429-000 Key Specs
    Item
    OXYGEN FLOW CONTROL VALVE
    OEM
    Datex-Ohmeda
    OEM #
    1011-3429-000
    Condition
    New OEM Original
    Returnable
    No
    Warranty
    90 Day
    Standards and Approvals
    RoHS

    The Flow Control Valve comes as a part of the Alternate Oxygen manifold in Breathing Circuit Gas (BCG) of an anesthesia delivery system. It is used to control the oxygen gas flow through the Medium Pressure Oxygen Service (MPOS) manifold where, pressure is in the range of 50 to 3000 kPa and which, is provided as a part of the unit. The assembly comes into contact with oxygen-enriched gas, a mixture that contains more than 23.5% volume fraction of oxygen. The components are corrosion resistant, despite these conditions and hence it is highly efficient to use in medical environments. The valve consists of a shaft. The clockwise rotation of the flow control shaft reduces the flow. When the shaft is at the minimum stop, the flow from the outlet port is 510-685 mL/min and at the maximum stop, flow is 11.0-12.75 L/min. In and Out ports are permanently identified in position and orientation.

      Product Overview

      The Flow Control Valve comes as a part of the Alternate Oxygen manifold in Breathing Circuit Gas (BCG) of an anesthesia delivery system. It is used to control the oxygen gas flow through the Medium Pressure Oxygen Service (MPOS) manifold where, pressure is in the range of 50 to 3000 kPa and which, is provided as a part of the unit. The assembly comes into contact with oxygen-enriched gas, a mixture that contains more than 23.5% volume fraction of oxygen. The components are corrosion resistant, despite these conditions and hence it is highly efficient to use in medical environments. The valve consists of a shaft. The clockwise rotation of the flow control shaft reduces the flow. When the shaft is at the minimum stop, the flow from the outlet port is 510-685 mL/min and at the maximum stop, flow is 11.0-12.75 L/min. In and Out ports are permanently identified in position and orientation.

      Features
      • Does not contain Cadmium (Cd) more than 0.01% by weight and Lead (Pb), Mercury (Hg), Hexavalent Chromium, Poly Brominated Biphenyl (PBB) and Poly Brominated Diphenyl Ethers (PBDE) more than 0.1% by weight
      • Cleaned to specified levels of hydrocarbon agents (i.e., oils, grease, etc.), particulates (dust, dirt, lint, fibers, paper, rust, etc.) and other foreign materials on the surface or in the internal passages
      • Packaged individually to avoid damage due to rubbing or shifting during transit
      • ROHS compliant
      • Fast signal transmission
      • Good structural design
      • Highly insulated
      • Made of high quality material
      Technical Specs
      P/N: 1011-3429-000 Key Specs
      Item
      OXYGEN FLOW CONTROL VALVE
      OEM
      Datex-Ohmeda
      OEM #
      1011-3429-000
      Condition
      New OEM Original
      Returnable
      No
      Warranty
      90 Day
      Standards and Approvals
      RoHS

      The Flow Control Valve comes as a part of the Alternate Oxygen manifold in Breathing Circuit Gas (BCG) of an anesthesia delivery system. It is used to control the oxygen gas flow through the Medium Pressure Oxygen Service (MPOS) manifold where, pressure is in the range of 50 to 3000 kPa and which, is provided as a part of the unit. The assembly comes into contact with oxygen-enriched gas, a mixture that contains more than 23.5% volume fraction of oxygen. The components are corrosion resistant, despite these conditions and hence it is highly efficient to use in medical environments. The valve consists of a shaft. The clockwise rotation of the flow control shaft reduces the flow. When the shaft is at the minimum stop, the flow from the outlet port is 510-685 mL/min and at the maximum stop, flow is 11.0-12.75 L/min. In and Out ports are permanently identified in position and orientation.