List the assessment methods to be used and the context and resources required for assessment. Copy and paste the relevant sections from the evidence guide below and then re-write these in plain English.
Elements describe the essential outcomes. | Performance criteria describe the performance needed to demonstrate achievement of the element. |
1. | Inspect rotor and rotor control systems and components | 1.1 | Isolation and warning signs are fitted/installed to the system or related systems and the aircraft configured for safe system inspection and operation in accordance with relevant aircraft publications/maintenance regulations orders and standards and practices |
| | 1.2 | Rotor and rotor control system is visually or physically checked/inspected for external signs of defects in accordance with relevant aircraft publications maintenance regulations/orders and standards and practices while observing all relevant work health and safety (WHS) requirements, including the use of material safety data sheets (MSDS) and items of personal protective equipment (PPE) |
| | 1.3 | Defects are identified and recorded in accordance with standard enterprise procedures |
2. | Inspect basic rotary wing airframe systems | 2.1 | Relevant maintenance documentation and modification status, including system defect reports, where relevant, are used to identify specific inspection requirements |
| | 2.2 | Isolation tags are checked and aircraft configured for safe system inspection and operation in accordance with the applicable maintenance manual |
| | 2.3 | Airframe system components are visually or physically checked for external signs of defects in accordance with applicable maintenance manual while observing all relevant WHS requirements, including the use of MSDS and items of PPE |
| | 2.4 | Defects are correctly identified and reported |
3. | Ground test rotor and rotor control systems | 3.1 | Aircraft and system are prepared in accordance with relevant aircraft publications/maintenance regulations orders and standards and practices for the operation of engine and rotor system |
| | 3.2 | Rotor and rotor control system are functionally tested in accordance with relevant aircraft publications maintenance regulations/orders and standards and practices for evidence of malfunction |
| | 3.3 | System calibration or adjustments are performed in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices |
4. | Test/adjust basic rotary wing airframe systems and components | 4.1 | Aircraft and system are prepared in accordance with applicable maintenance manual for the application of power/system operation |
| | 4.2 | Airframe system is functionally tested in accordance with maintenance manual for evidence of serviceability or malfunction |
| | 43 | System adjustment is performed in accordance with maintenance manual |
5. | Troubleshoot rotor and rotor control systems | 5.1 | Available information from aircraft maintenance documentation, inspection and test results is used to assist in fault determination |
| | 5.2 | Relevant aircraft publication fault diagnosis guide and logical processes are used to ensure efficient and accurate troubleshooting to line replacement level |
| | 5.3 | Specialist advice is obtained to assist with the troubleshooting process |
| | 5.4 | Rotor and rotor control system faults are located and the causes of the faults are clearly identified and recorded in aircraft maintenance documentation in accordance with standard enterprise procedures |
| | 5.5 | Fault rectification requirements are determined |
6. | Troubleshoot basic rotary wing airframe systems | 6.1 | Available information from maintenance documentation, inspection and test results is used, where necessary, to assist in fault determination |
| | 6.2 | Maintenance manual fault diagnosis guides and logic processes are used to ensure efficient and accurate troubleshooting |
| | 6.3 | Specialist advice is obtained, where required, to assist with the troubleshooting process |
| | 6.4 | Airframe system faults are located and the causes of the faults are clearly identified and correctly recorded in maintenance documentation, where required, in accordance with standard enterprise procedures |
| | 6.5 | Rectification requirements are determined |
7. | Remove and install rotary wing rotor and rotor system components | 7.1 | System is rendered safe and prepared in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices, and isolation and warning signs are installed/fitted to ensure personnel safety |
| | 7.2 | Rotor and rotor system component removal is carried out in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices while observing all relevant WHS requirements, including the use of MSDS and items of PPE |
| | 7.3 | Required aircraft maintenance documentation is completed and processed in accordance with standard enterprise procedures |
| | 7.4 | Removed components are labelled, sealed and packaged in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices |
| | 7.5 | Rotor or rotor system component to be installed is checked to confirm correct part or model numbers, modification status and serviceability |
| | 7.6 | Mass balance of rotor blades/head is checked in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices |
| | 7.7 | Installation is carried out in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices |
| | 7.8 | Support/safety equipment is removed at the appropriate time to ensure personnel safety and freedom from structural damage |
8. | Remove and install rotor control system components | 8.1 | System is rendered safe and prepared in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices, and isolation and warning signs are installed/fitted to ensure personnel safety |
| | 8.2 | Rotary wing flight control system component removal is carried out in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices while observing all relevant WHS requirements, including the use of MSDS and items of PPE |
| | 8.3 | Required aircraft maintenance documentation is completed and processed in accordance with standard enterprise procedures |
| | 8.4 | Removed components are labelled, sealed and packaged in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices |
| | 8.5 | Rotary wing flight control system components to be installed are checked to confirm correct part or model numbers, modification status and serviceability |
| | 8.6 | Installation is carried out in accordance with relevant aircraft publications/maintenance regulations/orders and standards and practices |
| | 8.7 | Support/safety equipment is removed at the appropriate time to ensure personnel safety and freedom from structural damage |
| | 8.8 | Required aircraft maintenance documentation is completed and processed in accordance with standard enterprise procedures |
9. | Remove and install basic rotary wing airframe system components | 9.1 | System is rendered safe in accordance with the applicable maintenance manual and isolation tags are fitted, where necessary, to ensure personnel safety |
| | 9.2 | Airframe system component removal is carried out in accordance with the applicable maintenance manual while observing all relevant WHS requirements, including the use of MSDS and items of PPE |
| | 9.3 | Required maintenance documentation is accurately completed and correctly processed |
| | 9.4 | Removed components are tagged, sealed and packaged in accordance with specified procedures |
| | 9.5 | Components to be installed are checked to confirm correct part numbers, serviceability and modification status |
| | 9.6 | Mass balance of control surfaces to be installed is checked in accordance with the applicable maintenance manual, if required |
| | 9.7 | Installation is carried out in accordance with the applicable maintenance manual |
| | 9.8 | Required maintenance documentation is completed and processed in accordance with standard enterprise procedures |
Evidence required to demonstrate competency in this unit must be relevant to and satisfy all of the requirements of the elements and performance criteria under the specified conditions of assessment, and must include:
using hand skills, tools and test equipment in the testing, adjustment and troubleshooting of:
rotary wing mechanical control systems
helicopter airframe systems and components, including rotors and rotor system
recognising system and component defects/external damage, correct installation and security for the range of airframe systems listed in the Range of Conditions
removing, installing and rigging of rotor systems and rotor/flight controls
removing and installing the range of airframe components listed in the Range of Conditions
checking rotor mass balance
performing system functional tests and checks to isolate system faults and assess post-maintenance serviceability
effectively using maintenance documentation and relevant fault diagnosis guides in the troubleshooting process and for component removal and installation
applying standard procedures
observing all relevant WHS procedures, including the use of PPE and MSDS.
The underlying skills inherent in this unit should be transferable across a range of inspection, testing and troubleshooting applications (including the timely involvement of supervisors or other trades) associated with the, rotors, rotor control systems, airframe systems and components of basic rotary wing aircraft. It is essential that relevant procedures, cleanliness requirements and safety precautions are fully observed, understood and complied with. Ability to interpret inspection procedures and specifications (allowable limits) and apply them in practice is critical.
This shall be demonstrated through application across a range of rotors, rotor control systems, airframe systems and components as listed in the Assessment Conditions.
Evidence required to demonstrate competency in this unit must be relevant to and satisfy all of the requirements of the elements and performance criteria and include knowledge of:
WHS precautions relevant to airframe system maintenance, including the lifting and handling of heavy components and how to obtain PPE and MSDS
standard trade practices relating to tool and test/rigging equipment usage and installation/securing of system components
theory of flight:
airflow
conditions of flight
lift and forces
drag
rotary flight principles:
terminology relating to:
aerofoils
main rotor blades
rotor discs
rotors (main and tail)
aerodynamic characteristics:
aerofoil design
forces
rotor thrust and power requirements
vortex ring
autorotation
helicopter stability
helicopter dynamic components:
main rotors:
blades
heads
linkages
tail rotors
swash plates
transmissions and drive shafts
helicopter structure and airframe systems:
structure and layout
engine and transmission
flight control system layout and operation
cabin heater system layout and operation
fuel system layout and operation
helicopter maintenance procedures and troubleshooting
relevant maintenance manuals
relevant regulatory requirements and standard procedures, including requirements for engine and rotor system operation.
Competency should be assessed in the work environment or simulated work environment using tools and equipment specified in maintenance documentation. It is also expected that applicable general-purpose tools and test equipment found in most routine situations would be used where appropriate.
The application of testing procedures should clearly indicate knowledge of system operation, the relationship of individual components and the links with other systems (if applicable) within the limits of the aircraft/system fault-finding guide before undertaking any action. The work plan should take account of applicable safety and quality requirements in accordance with the industry and regulatory standards.
The following conditions of assessment represent the requirements of the Regulators (ADF and CASA) and maintenance stakeholders and must be rigorously observed.
A person cannot be assessed as competent until it can be demonstrated to the satisfaction of the workplace assessor that the relevant elements and performance criteria of this unit of competency are being achieved under routine supervision on groups listed in the Range of Conditions, as follows:
at least one (1) component from each of:
main rotor blades and tail rotor blades
rotor heads, swash plates and tail rotor pitch control assemblies
mechanical flight control components (collective and cyclic pitch levers, rudder pedals, cables, pulleys, guides, fairleads, bellcranks, rods, torque tubes, chains and sprockets)
main rotor, intermediate or tail rotor gearboxes
drive shafts and couplings
fuel systems
cabin heating systems
a representative range of components from:
rigid or flexible fuel tanks, selector/shutoff valves and rigid or flexible plumbing
cabin heater ducting and control valves.
This shall be established via the records in the Log of Industrial Experience and Achievement or, where appropriate, an equivalent Industry Evidence Guide (for details refer to the Companion Volume Assessment Guidelines).
Assessors must satisfy the requirements of the National Vocational Education and Training Regulator (Australian Skills Quality Authority, or its successors).
Where the unit is to be used for CASA licensing purposes the Assessor must also meet the criteria specified