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Overhead Wiring (Traction) Construction SWMS

OHL/traction overhead wiring construction and maintenance — 25 kV AC and 1500 V DC systems. Earthing isolation, height work from EWP/tower wagon, live electrical safety per AS/NZS 7000.

⚖️WHS Regulation 2025 & Codes of Practice — legally binding from 1 July 2026 (s26A)

👷Reviewed by certified occupational health and safety professionals

🗺️State-specific variants for all 8 Australian jurisdictions

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SWMS variants reference your state’s WHS legislation. Instant download after payment.

Overhead line (OHL) traction construction and maintenance on Australia's electrified rail networks involves erecting, tensioning, and maintaining contact wire, catenary, droppers, registration arms, and section insulators on 25 kV AC mainline corridors and 1500 V DC suburban systems. The work is performed from elevating work platforms, tower wagons, hi-rail EWPs, and structures within the danger zone of energised conductors, adjacent running lines, and the rail corridor itself. A SWMS is mandatory under WHS Regulation 2025 clause 291 because the activity is high-risk construction work involving energised electrical installations, work near a road or railway corridor used by traffic, and the use of powered mobile plant. Additional duties arise under the Rail Safety National Law Act 2012 and ONRSR's safety management system framework, with network operators (TfNSW, ARTC, QR, MTM, V/Line) imposing their own access protocols, electrical permits, and possession rules that the SWMS must integrate. Without a documented, signed SWMS, work cannot lawfully commence and the PCBU is exposed to enforcement action by both the WHS regulator and ONRSR.

Hazards identified

7 hazards covered, sorted by priority.

Electric shock or flashover from 25 kV AC contact wire still energised due to failed isolation or induced voltage from parallel feedersHIGH

Cardiac arrest, full-thickness arc burns, fatality; coronial inquiry and ONRSR notifiable occurrence investigation

Induced voltage on isolated and earthed conductors from adjacent live 25 kV feeders or parallel traction return pathsHIGH

Unexpected shock during conductor handling causing fall from height, secondary injury and electrical burns

Fall from EWP basket, tower wagon deck, or structure during conductor stringing at heights of 5–8 m above railHIGH

Multiple fractures, spinal injury, fatality; SafeWork notifiable incident and prosecution under WHS Act s32

Struck by train on adjacent running line during single-line possession or fouling the dynamic envelopeHIGH

Fatal crush injury to track workers; ONRSR Category A notifiable occurrence and criminal liability under RSNL

Hi-rail EWP or tower wagon derailment, runaway, or collision during on-track movementHIGH

Plant overturn, worker crush injuries, infrastructure damage, extended possession overrun and corridor closure

Dropped tools, conductor tails, or hardware from height onto track workers or trackside plantMEDIUM

Head injury, lacerations, concussion; lost-time injury and breach of WHS Reg clause 78 falling objects

Mechanical injury from sudden release of tensioned conductor or broken-out termination during stringingMEDIUM

Whip-strike lacerations, eye injury, amputation; permanent disability and workers compensation claim

Control measures

Hierarchy-of-controls order: elimination → substitution → isolation → engineering → administrative → PPE.

1Elimination — Schedule all OHL construction within a full electrical isolation and absolute possession so no live traction supply or train movements occur in the worksite during the task.
2Elimination — Pre-fabricate cantilever assemblies, droppers, and terminations off-site in a controlled workshop to remove working-at-height assembly tasks from the rail corridor entirely.
3Substitution — Replace climbing of structures with EWP or tower wagon access platforms compliant with AS 1418.10 to substitute fall exposure with guarded platform work.
4Engineering — Apply the network operator's traction isolation permit, install short-circuit earths at each work site boundary per AS 4292.6, and bond conductors to traction earth before any touch.
5Engineering — Erect physical track protection (lookouts plus automatic warning devices or hard barricades) defining the safe place of safety per the network rule book and AS 7470 corridor controls.
6Engineering — Fit EWP baskets with anchor points, tool tethers, and kickboards; bond the basket to the earthed conductor system before contact to equalise potential per AS/NZS 7000.
7Administrative — Conduct a documented pre-start briefing on this SWMS, verify all workers hold current Rail Industry Worker (RIW) competencies, EWP HRWL, and network-specific electrical OHL authorisations.
8Administrative — Implement a Protection Officer / Safeworking Coordinator role, issue protection notices, log all on/off-track movements, and maintain continuous radio comms with network control.
9PPE — Issue arc-rated FR clothing rated minimum 8 cal/cm² per AS/NZS 4836, Class 00 insulated gloves tested within 6 months, hi-vis Day/Night to AS/NZS 4602.1, helmet with chinstrap.
10PPE — Use twin-lanyard fall-arrest harness to AS/NZS 1891.1 anchored to rated points, insulated tools to IEC 60900, and safety glasses with side shields during conductor handling and tensioning.

Applicable Codes of Practice

AS/NZS 7000:2016 Overhead line design — safety requirements

Sets clearance, earthing, and induced-voltage management requirements directly governing OHL construction methodology, structure loading and conductor handling.

AS 4292.1 and AS 4292.6 Railway safety management — Working on or near energised electrical equipment

Defines isolation, permit-to-work, short-circuit earthing and access control requirements that the SWMS isolation control measures must mirror clause-for-clause.

Safe Work Australia Code of Practice — Managing the Risk of Falls at Workplaces (2024)⚖ Legally binding · 1 Jul 2026

Triggered by all platform work above 2 m from EWP, tower wagon and structures; mandates hierarchy of fall control applied throughout this SWMS.

Safe Work Australia Code of Practice — Managing Electrical Risks in the Workplace (2024)⚖ Legally binding · 1 Jul 2026

Governs the test-before-touch, isolation verification and arc-flash control duties imposed under WHS Reg clauses 14–17 and Part 4.7.

High-Risk Construction Work triggered

Work on or near energised electrical installations or services

OHL contact wire and catenary form a 25 kV AC or 1500 V DC electrical installation; induced voltage means workers are 'near' energised conductors even after isolation.

Work on, in or adjacent to a road, railway, shipping lane or other traffic corridor in use by traffic other than pedestrians

All OHL tasks are performed within the rail corridor with adjacent running lines remaining open to revenue and freight rail traffic during the works.

Work involving the use of powered mobile plant

Tower wagons, hi-rail EWPs, and rail-mounted cranes are powered mobile plant operating on-track within a confined corridor envelope with rail/road interface risks.

Legal consequence

PCBU must consult workers and HSRs, prepare and sign the SWMS before work starts, monitor compliance, and retain it for at least two years after a notifiable incident; penalties are substantial and indexed, with the current maximum following the prevailing WHS schedule.

Who this is for

→Rail electrification contractors on TfNSW, ARTC and metro upgrades
→OHL/traction maintenance crews and Protection Officers
→Principal contractors delivering rail electrification capital works
→Hi-rail EWP and tower wagon operators with RIW accreditation

What you receive

✓Editable DOCX template — Microsoft Word compatible
✓State-specific WHS legislation schedule (NSW/VIC/QLD/SA/WA/TAS/NT/ACT)
✓Hazard register with risk ratings + hierarchy-of-control mapping
✓Worker sign-on register, pre-start checklist, and incident escalation flow

Worked example

On a suburban electrification renewal project replacing a section of contact wire on a 1500 V DC corridor, the OHL crew arrives at the access point for a Saturday night absolute possession between two suburban stations. The Site Supervisor opens the pre-start briefing by walking the eight-person crew through this SWMS section by section, projected from a ruggedised tablet on the tower wagon bonnet. The team confirms the traction isolation permit number, witnesses the Protection Officer placing short-circuit earths at both ends of the worksite, and the linesperson performs the test-before-touch on the catenary using an approved high-voltage detector before the first worker enters the EWP basket. Each worker signs the SWMS sign-on sheet, with RIW cards and EWP HRWL numbers logged against the controls they are accountable for. Two hours in, a freight train requires a single-line working movement on the adjacent track. The Supervisor pauses work, reconvenes the crew at the safe place of safety identified in the SWMS, annotates the document with the change in adjacent line status, and re-briefs the lookout protection arrangement before resuming. The marked-up SWMS is retained as the record of the dynamic risk control adjustment for ONRSR audit and post-possession debrief.

Related legislation

WHS Act 2011 (model)
WHS Regulation 2025
AS/NZS 3000 — Electrical installations

What's in this SWMS

Document details

Regulation

WHS Regulation 2025 (NSW) + state equivalents; Rail Safety National Law Act 2012; ONRSR framework; network operator safety rules (TfNSW, ARTC, QR, MTM, V/Line)

HRCW Category

HRCW — see HRCW Cat. 14 (road/railway traffic corridor), Cat. 11 (energised electrical — OHL traction), Cat. 15 (powered mobile plant/hi-rail)

Hazards Identified

13 hazards with controls

Format

Editable DOCX (Microsoft Word)

Author

Certified Industrial Hygienist (CIH)

Delivery

Instant download after payment