Overhauling components of aircraft oxygen equipment

URN: SEMAE3171
Business Sectors (Suites): Aeronautical Engineering Suite 3
Developed by: Enginuity
Approved on: 2021

Overview

This standard identifies the competences you need to carry out overhauling activities on aircraft oxygen equipment and components, in accordance with approved procedures. The equipment to be overhauled will have been removed from the aircraft and the overhauling activities may take place in a workshop or hangar.

It covers both fixed wing and rotary winged aircraft, and covers a range of oxygen equipment such as oxygen generation equipment, storage equipment, face masks, drop-down mask equipment and other aircraft-specific oxygen equipment. The overhauling activities will include carrying out all necessary safety checks, dismantling the equipment to unit or component level, inspecting and checking all components for damage and wear, replacing all `lifed' items and worn/faulty components or units, reassembling the equipment and carrying out all necessary tests/checks.

Your responsibilities will require you to comply with organisational policy and procedures for the overhauling activities undertaken and to report any problems with the overhauling activities, or with the tools and equipment used that you cannot personally resolve or that is outside your permitted authority, to the relevant people. You must ensure that all tools, equipment and materials used in the overhauling activities are removed from the work area and that all necessary job/task documentation is completed accurately and legibly. You will be expected to work with a minimum of supervision, taking personal responsibility for your own actions and for the quality and accuracy of the work that you carry out.

Your underpinning knowledge will provide a good understanding of your work and will provide an informed approach to applying appropriate overhauling procedures to aircraft oxygen equipment. You will understand the dismantling and reassembly methods and procedures used, and their application. You will know how the equipment functions, the common faults encountered, the purpose of the individual components and associated defects, in adequate depth to provide a sound basis for carrying out the overhauling activities, correcting faults and ensuring that the overhauled equipment meets the required specification.

You will understand the safety precautions required when carrying out the overhauling activities, especially those for ensuring that the oxygen equipment and components are maintained free from hydrocarbon contamination. You will be required to demonstrate safe working practices throughout and will understand your responsibility for taking the necessary safeguards to protect yourself and others in the workplace.


Performance criteria

You must be able to:

  1. work safely at all times, complying with health and safety and other relevant regulations, directives and guidelines
  2. follow the relevant maintenance schedules to carry out the required work
  3. carry out the maintenance activities within the limits of your personal authority
  4. carry out the maintenance activities in the specified sequence and in an agreed timescale
  5. replace/refit components using appropriate methods and techniques
  6. carry out checks on the overhauled equipment using correct procedures
  7. report any instances where the maintenance activities cannot be fully met or where there are identified defects outside the planned schedule

  8. complete the relevant maintenance records accurately and pass them on to the appropriate person

  9. dispose of waste materials in accordance with safe working practices and approved procedures
  10. leave the equipment in a safe and appropriate condition, free from foreign object debris

Knowledge and Understanding

You need to know and understand:

  1. the safe working practices and procedures and the specific safety precautions to be taken when overhauling aircraft oxygen equipment (to include wearing protective clothing and equipment; lifting and handling techniques; safe working practices and procedures with regard to working on aircraft oxygen equipment; procedures and guidelines which satisfy current regulations such as HASAWA, COSHH and other work related legislation and guidelines)
  2. hazards associated with carrying out overhauling activities on aircraft oxygen equipment (such as using lifting and handling equipment, working with pressurised liquids/gasses, working with liquid oxygen, misuse of tools, using damaged or badly maintained tools and equipment, not following laid-down overhauling procedures) and how to minimise them and reduce any risks
  3. the requirements and importance of understanding and applying human factors as defined by the regulatory requirements and the potential impact if these are not adhered to
  4. the importance of wearing protective clothing and other appropriate safety equipment (PPE) during the overhaul
  5. how to extract and use information from aircraft manuals, history/maintenance reports, aircraft logs, charts, circuit and physical layouts, specifications, symbols used in aircraft oxygen systems and other documents needed in the overhauling process
  6. how to carry out currency/issue checks on the specifications you are working with
  7. the procedure for obtaining replacement parts, materials and other consumables necessary for the overhaul
  8. terminology used in aircraft oxygen systems and the use of fluid power diagrams and associated symbols
  9. the various types of component that make up the aircraft oxygen equipment (such as pipes; flexible hoses; valves used for pressure, flow and directional control; mechanical and electrical control devices)
  10. the principles of operation of the oxygen equipment being worked on and the performance characteristics and function of the valves, cylinders/actuators within the circuit
  11. the sequence to be adopted for the dismantling/reassembling of various types of oxygen components
  12. the techniques used to dismantle the equipment to unit or component level, without damage to the components (such as release of pressures/force, draining of fluids, proof marking/labelling removed components, extraction of components and the need to protect the circuit integrity by fitting blanking plugs/covers) 
  13. the various mechanical fasteners to be removed and replaced, and their method of removal and replacement (such as threaded fasteners, special securing devices)
  14. methods of lifting, handling and supporting the components/equipment during the removal and replacement activities
  15. recognition of contaminants and the problems they can create; the effects and likely symptoms of contamination in the system (especially hydrocarbons in oxygen systems)
  16. methods of checking that components are fit for purpose and the uses of inspection/measuring equipment (such as gauges, micrometers, Verniers, dial test indicators, mirrors, endoprobes, boroscopes, video probes, scales, test rigs)
  17. how to identify defects and wear characteristics, and the need to replace 'lifed' items (such as filters, seals and gaskets)
  18. how to check that replacement components have the correct part/identification markings
  19. why electrical bonding is critical and why it must be both mechanically and electrically secure
  20. how to reassemble the components (such as the use of gaskets and seals, jointing/sealing compounds; ensuring correct tightness of fittings and connections; eliminating stress on pipework/connections; carrying out visual checks of all components; checking security of joints and that the system is safe to re-pressurise)
  21. why securing devices need to be tightened to the correct torque, locked and labelled, and the different methods that are used
  22. the tools and equipment used in the overhauling activities and their calibration/care and control procedures
  23. the recording documentation to be completed for the activities undertaken and where appropriate, the importance of marking and identifying specific pieces of work in relation to the documentation
  24. the need to control and account for all tools and equipment used during the overhauling activity
  25. the procedure for the safe disposal of waste materials, scrap components and cleaning fluids
  26. the extent of your own authority and to whom you should report if you have a problem that you cannot resolve

Scope/range


Scope Performance

  1. Carry out all of the following during the overhauling activities:

    1. obtain and use the appropriate documentation (such as job instructions, aircraft manuals and overhauling documentation, technical instructions and other relevant maintenance documentation)
    2. adhere to procedures or systems in place for risk assessment, COSHH, personal protective equipment and other relevant safety regulations and procedures to realise a safe system of work
    3. provide and maintain safe access and working arrangements for the overhauling area
    4. obtain the correct tools and equipment for the activity and check that they are in a safe, tested and usable condition and within current certification/calibration date
    5. ensure the safe depressurisation of the oxygen equipment (where appropriate)
    6. carry out the overhauling activities, using approved techniques and procedures at all times
    7. ensure that components and oxygen equipment are maintained free from damage and foreign objects
    8. return all tools and equipment to the correct location on completion of the activities
  2. Carry out the overhauling activities to component level on three of the following types of aircraft oxygen equipment:

    1. oxygen generation equipment
    2. distribution equipment
    3. ejection seat mounted equipment
    4. liquid oxygen equipment 
    5. drop down masks   
    6. storage equipment
    7. face masks                 
    8. control valves  
    9. associated ground equipment
    10. regulators               
    11. water/vapour extractors
    12. bulk storage equipment
  3. Carry out all of the following activities, as applicable to the equipment being overhauled:

    1. cleaning parts prior to dismantling  
    2. checking components for serviceability (such as visual, measurement, use of test rigs)
    3. pre-disassembly checks and tests                                   
    4. releasing stored pressure (where applicable)     
    5. fitting blanks to openings to prevent entry of contaminating debris
    6. replacing all damaged or defective components
    7. dismantling equipment to unit/sub-assembly level 
    8. reassembling equipment
    9. dismantling units to component level                
    10. making mechanical connections
    11. proof-marking/labelling of components    
    12. setting and adjusting replaced components
    13. leak testing                      
    14. tightening fastenings to the required torque
    15. replacing all 'lifed' items (such as piston seals, dust caps, filters, gaskets)
    16. securing components using mechanical fasteners and threaded devices
    17. applying locking and retaining devices (such as circlips, pins, wire locking, lock nuts, stiff nuts, swage nuts)
  4. Replace a range of oxygen equipment components, to include eight of the following:

    1. pipework and hoses  
    2. diaphragms       
    3. gauges
    4. unions and couplings     
    5. actuating mechanisms
    6. gaskets
    7. valves and seats     
    8. spring mechanisms  
    9. sensors
    10. housings         
    11. plungers  
    12. safety devices
    13. oxygen bottles   
    14. static and dynamic seals 
    15. regulators       
    16. filters
    17. other specific components
  5. Carry out checks and tests on the overhauled equipment, to include two of the following:

    1. leak test         
    2. flow test 
    3. standard serviceability test
    4. pressure test          
    5. oxygen concentration 
    6. 'special-to-type' tests
  6. Overhaul aircraft oxygen equipment in compliance with one of the following:

    1. Civil Aviation Authority (CAA)/European Aviation Safety Agency (EASA)
    2. Ministry of Defence (MoD)
    3. Military Aviation Authority (MAA)
    4. Aerospace Quality Management Standards (AS)
    5. Federal Aviation Authority (FAA)
    6. BS, ISO or BSEN standards and procedures
    7. customer standards and requirements
    8. company standards and procedures
    9. aircraft manufacturer's requirements
  7. Complete the relevant paperwork, to include one from the following and pass it to the appropriate people:

    1. job cards
    2. computer records
    3. aircraft service/flight log
    4. aircraft log book
    5. permit to work/formal risk assessment

Scope Knowledge


Values


Behaviours

You will be able to apply the appropriate behaviours required in the workplace to meet the job profile and overall company objectives, such as:

  • strong work ethic
  • positive attitude
  • team player
  • dependability
  • responsibility
  • honesty
  • integrity
  • motivation
  • commitment

Skills


Glossary


Links To Other NOS


External Links


Version Number

3

Indicative Review Date

2024

Validity

Current

Status

Original

Originating Organisation

Enginuity

Original URN

SEMAE3171

Relevant Occupations

Engineer, Engineering, Engineering and Manufacturing Technologies, Engineering Technicians

SOC Code

5234

Keywords

aircraft oxygen equipment; worn/faulty components; tests/checks; component level