Part D1 Access and egress

NCC 2022 Volume One - Building Code of Australia Class 2 to 9 buildings

State

Climate Zone

Building Classification

Classification

Part D1 Access and egress

Introduction to this Part

This Part focuses on specifying the number and location of exits, construction of exits to enable safe evacuation and providing access to and within buildings for people with disability. It also includes measures intended to reduce slips, trips and falls.

Objectives

D1O1

Objective

2019: DO1

The Objective of this Section is to—

provide, as far as is reasonable, people with safe, equitable and dignified access to—
1. a building; and
2. the services and facilities within a building; and
safeguard occupants from illness or injury while evacuating in an emergency.

Functional Statements

D1F1

Access

2019: DF1

A building is to provide, as far as is reasonable—

safe; and
equitable and dignified,

access for people to the services and facilities within.

Limitations

D1F1(b) does not apply to a Class 4 part of a building.

D1F2

Egress

2019: DF2

A building is to be provided with means of evacuation which allow occupants time to evacuate safely without being overcome by the effects of an emergency.

Limitations

D1F2 does not apply to the internal parts of a sole-occupancy unit in a Class 2 or 3 building or Class 4 part of a building.

Performance Requirements

D1P1

Access for people with a disability

2019: DP1

Access must be provided, to the degree necessary, to enable—

people to—
1. approach the building from the road boundary and from any accessible carparking spaces associated with the building; and
2. approach the building from any accessible associated building; and
3. access work and public spaces, accommodation and facilities for personal hygiene; and
identification of accessways at appropriate locations which are easy to find.

Limitations

D1P1 does not apply to a Class 4 part of a building.

D1P2

Safe movement to and within a building

2019: DP2

So that people can move safely to and within a building, it must have—

walking surfaces with safe gradients; and
any doors installed to avoid the risk of occupants—
1. having their egress impeded; or
2. being trapped in the building; and
any stairways and ramps with—
1. slip-resistant walking surfaces on—
  1. ramps; and
  2. stairway treads or near the edge of the nosing; and
2. suitable handrails where necessary to assist and provide stability to people using the stairway or ramp; and
3. suitable landings to avoid undue fatigue; and
4. landings where a door opens from or onto the stairway or ramp so that the door does not create an obstruction; and
5. in the case of a stairway, suitable safe passage in relation to the nature, volume and frequency of likely usage.

D1P3

Fall prevention barriers

2019: DP3

(1) A barrier must be provided where people could fall—

1 m or more—
1. from a floor or roof or through an opening (other than through an openable window) in the external wall of a building; or
2. due to a sudden change of level within or associated with a building; or
2 m or more from a floor through an openable window—
1. in a bedroom in a Class 2 or 3 building or a Class 4 part of a building; or
2. in a Class 9b early childhood centre; or
4 m or more from a floor through an openable window not covered by (b).

(2) A barrier required by (1) must be—

continuous and extend for the full extent of the hazard; and
of a height to protect people from accidentally falling from the floor or roof or through the opening or openable window; and
constructed to prevent people from falling through the barrier; and
capable of restricting the passage of children; and
of strength and rigidity to withstand—
1. the foreseeable impact of people; and
2. where appropriate, the static pressure of people pressing against it.

Limitations

D1P3 does not apply where such barrier would be incompatible with the intended use of an area such as a stage, loading dock or the like.
D1P3(2)(d) does not apply to—
1. fire-isolated stairways, fire-isolated ramps, and other areas used primarily for emergency purposes, excluding external stairways and ramps; and
2. Class 7 (other than carparks) and Class 8 buildings and parts of buildings containing those classifications.

D1P4

Exits

2019: DP4

Exits must be provided from a building to allow occupants to evacuate safely, with their number, location and dimensions being appropriate to—

the travel distance; and
the number, mobility and other characteristics of occupants; and
the function or use of the building; and
the height of the building; and
whether the exit is from above or below ground level.

D1P5

Fire-isolated exits

2019: DP5

To protect evacuating occupants from a fire in the building exits must be fire-isolated, to the degree necessary, appropriate to—

the number of storeys connected by the exits; and
the fire safety system installed in the building; and
the function or use of the building; and
the number of storeys passed through by the exits; and
fire brigade intervention.

D1P6

Paths of travel to exits

2019: DP6

So that occupants can safely evacuate the building, paths of travel to exits must have dimensions appropriate to—

the number, mobility and other characteristics of occupants; and
the function or use of the building.

Limitations

D1P6 does not apply to the internal parts of a sole-occupancy unit in a Class 2 or 3 building or Class 4 part of a building.

D1P7

Evacuation lifts

2019: DP7

Where a lift is intended to be used in addition to the required exits to assist occupants to evacuate a building safely, the type, number, location and fire-isolation must be appropriate to—

the travel distance to the lift; and
the number, mobility and other characteristics of occupants; and
the function or use of the building; and
the number of storeys connected by the lift; and
the fire safety system installed in the building; and
the waiting time, travel time and capacity of the lift; and
the reliability and availability of the lift; and
the emergency procedures for the building.

D1P8

Carparking for people with a disability

2019: DP8

Carparking spaces for use by people with a disability must be—

provided, to the degree necessary, to give equitable access for carparking; and
designated and easy to find.

Limitations

D1P8 does not apply to a building where—

a parking service is provided; and
direct access to any carparking spaces by the general public or occupants is not available.

D1P9

Communication systems for people with hearing impairment

2019: DP9

An inbuilt communication system for entry, information, entertainment, or for the provision of a service, must be suitable for occupants who are deaf or hearing impaired.

Limitations

D1P9 does not apply to—

a Class 4 part of a building; or
an inbuilt communication system used only for emergency warning purposes.

NCC Blurbs

A building or part of a building must be accessible in accordance with the requirements of a Standard made under the Disability Discrimination Act 1992 (Cth).

NCC Title

Standards made under the Disability Discrimination Act

NCC State

TAS

NCC Variation Type

Insertion

NCC SPTC Current

Standards made under the Disability Discrimination Act

Verification Methods

D1V1

Wire barriers

2019: DV1

Compliance with D1P3(2)(c) and (d) for wire barriers is verified when the wire barrier passes the test described below:

Application — the test must be carried out on either—
1. a prototype of a wire barrier that is identical to that proposed to be installed on-site; or
2. a wire barrier installed on-site.
Test equipment — the test equipment must consist of the following:
1. A horizontally suspended 125 mm diameter, 405 mm long cylinder of 1 mm thick steel having a highly polished 105 mm long cone at one end with a 20 mm diameter flat leading edge to which an eye bolt is fixed.
2. A sufficiently flexible horizontal cable with mechanisms capable of applying and measuring a tension of 150 N (or a 15.3 kg weight suspended over a low friction pulley) is to be attached to the eye bolt (see Figure D1V1).
3. A mechanism capable of measuring the tension force applied to each wire.
Test procedure — the test procedure must be as follows:
1. Tension the wires, within their safe load, to the same tension in all wires and measure the tensions with a strain indicator.
2. For—
  1. horizontal or near horizontal wires, position the cone against a pair of wires at the mid-span between supports, then apply the 150 N tension force to the cone; and
  2. vertical wires, position the cone against a pair of wires at the mid-span between supporting rails, then apply the 150 N tension force to the cone; and
  3. near-vertical wires, position the cone against a pair of wires at the widest opening between the wires, then apply the 150 N tension force to the cone.
3. Attempt to pull the cone through the gap between the wires under the 150 N load, and—
  1. increase the tension in the wires and repeat (ii) until such time as the cone will not pull through; or
  2. if it does not pull through, reduce the tension in the wires and repeat step (ii); and
4. When the cone is just prevented from pulling through the gap, the wires are at the correct tension in which case the cone is withdrawn and the tension recorded.
5. Reduce the tension in the wires and repeat steps (ii) to (iv) twice more, recording the tension in each case after the cone has been removed and then calculate the average of the three tensions as the required tension for each wire.
6. For prototype tests of horizontal or near horizontal wires, record the deflection of each wire at the average tension calculated in accordance with (v) when a 2 kg mass is hung at mid-span between supports.
Test report — the test report must include the following information:
1. The name and address of the person supervising the test.
2. The test report number.
3. The date of the test.
4. The wire manufacturer’s name and address, and specifications of the wires used in the test including the safe load limit of the wires.
5. The construction details of the test specimen, including a description and drawings and details of the components including supports, post or railing spacings and wire spacings.
6. For a prototype test, the required tension calculated in accordance with (c)(v).
7. For prototype tests of horizontal or near horizontal wires, the deflection measured in accordance with (c)(vi).

Figure D1V1 Apparatus for testing wire barriers

D1V2

Access to and within a building

2019: DV2

Compliance with D1P1, D1P2, D1P6, E3P4 and/or F4P1, for access, is verified when it is determined that the proposed building provides an equivalent level of access as a reference building when using the following process:

A performance-based design brief is completed to define the following:
1. The occupant profile and characteristics based on the type and use of the building.
2. The appropriate method for determining the level of access.
3. The appropriate modelling method and tool.
4. The measurable acceptance criteria.
Using the appropriate method, the level of access required is determined by first modelling a reference building using the relevant Deemed-to-Satisfy Provisions of Sections D, E and F and the occupant profile and characteristics to determine the—
1. needs of the occupants that the reference building addresses; and
2. facilities required to be accessed by each occupant profile; and
3. baseline measurable acceptance criteria.
The proposed building and access solution must be modelled using a modelling method and approach consistent with that used for the reference building, and the same critical features including the following:
1. Occupant profile and characteristics.
2. Building location and orientation.
3. Locations of all entrances and exits.
4. Locations of facilities important to the solution, including sanitary facilities, lifts, stairwells, etc.
5. The number and range of facilities.
The proposed solution’s level of access is assessed by modelling occupant performance using characteristics, whereby the proposed building provides for equivalent access appropriate to the needs of each occupant profile.

D1V3

Ramp gradient, crossfall, surface profile and slip resistance for ramps used by wheelchairs

2019: DV3

(1) Compliance with Performance Requirement D1P2, relating to gradient, crossfall, surface profile and slip resistance of a ramp for the use of wheelchairs is verified when—

the ramp has a gradient that is not steeper than 1:8; and
the pushing force required to accelerate a wheelchair and user during ascent is in accordance with (2); and
the required braking force for a wheelchair and user during descent is in accordance with (3); and
the projected ascent time is in accordance with (4); and
the ramp crossfall, surface profile and slip resistance is in accordance with (5).

(2) The pushing force during ascent must be in accordance with the formula:

F_{p} > m g \sin α + C_{π 1} N_{1} + C_{π 2} N_{2}

where—

F_{p}

= the maximum force during ascent, equal to 40 N for ramps required to be usable by the general public; and

m

= the design mass of the wheelchair and wheelchair user, equal to 127 kg for ramps required to be usable by the general public; and

g

= the gravitational constant, equal to 9.8 m/s²; and

α

= the angle of incline of the ramp; and

C_{π 1}, C_{π 2}

= the coefficient of rolling resistance between the wheelchair wheel and the ramp surface, for the rear wheels and front wheels respectively; and

N_{1}, N_{2}

= the normal force between the wheelchair wheels and ramp surface, for rear wheels and front wheels respectively.

(3) The braking force during descent must be less than 9 N when calculated in accordance with the formula:

F_{b} = m g \sin α - C_{π 1} N_{1} - C_{π 2} N_{2}

where—

F_{b}

= the braking force during descent; and

m

= the design mass of the wheelchair and wheelchair user, equal to 127 kg for ramps required to be usable by the general public; and

g

= the gravitational constant, equal to 9.8 m/s²; and

α

= the angle of incline of the ramp; and

C_{π 1}, C_{π 2}

= the coefficient of rolling resistance between the wheelchair wheel and ramp surface, for the rear wheels and front wheels respectively; and

N_{1}, N_{2}

= the normal force between the wheelchair wheels and ramp surface, for the rear wheels and front wheels respectively.

(4) The time taken to ascend the ramp must be less than 17 s when calculated in accordance with the formula:

T = \frac{L m}{t (F_{p} - m g \sin α - C_{π 1} N_{1} - C_{π 2} N_{2})}

where—

T

= the time taken to ascend the ramp in seconds; and

L

= the length of the ramp in metres; and

m

= the design mass of the wheelchair and wheelchair user, equal to 127 kg for ramps required to be useable by the general public; and

t

= the time taken for the wheelchair to achieve maximum velocity, equal to 0.8 m/s; and

F_{p}

= the maximum pushing force during ascent, equal to 40 N for ramps required to be usable by the general public; and

g

= the gravitational constant, equal to 9.8 m/s²; and

α

= the angle of incline of the ramp; and

C_{π 1}, C_{π 2}

= the coefficient of rolling resistance between the wheelchair wheel and ramp surface, for the rear wheels and front wheels respectively; and

N_{1}, N_{2}

= the normal force between wheelchair wheels and ramp surface, for the rear wheels and front wheels respectively.

(5) The crossfall must be no steeper than, the surface profile must be no rougher than, and the slip resistance must be no less than, the values nominated in Table D1V3 for the gradient of the ramp.

Table D1V3 Ramp crossfall, surface profile and slip resistance

Gradient	Crossfall	Surface profile (mm)	Slip resistance
1:14	1:40	2	P4/R11
1:12	1:50	2	P5/R12
1:10	1:100	1	P5/R12
1:8	1:100	0.5	P5/R12

D1V4

Fire Safety Verification Method

2019: DV4

Compliance with D1P4, D1P5, D1P6 and D1P7 is verified when a building is designed in accordance with C1V4.

Filter

Part D1 Access and egress

Introduction to this Part

Objectives

D1O1 Objective 2019: DO1

State variations

Functional Statements

D1F1 Access 2019: DF1

Limitations

State variations

D1F2 Egress 2019: DF2

Limitations

State variations

Performance Requirements

D1P1 Access for people with a disability 2019: DP1

Limitations

State variations

D1P2 Safe movement to and within a building 2019: DP2

State variations

D1P3 Fall prevention barriers 2019: DP3

Limitations

State variations

D1P4 Exits 2019: DP4

State variations

D1P5 Fire-isolated exits 2019: DP5

State variations

D1P6 Paths of travel to exits 2019: DP6

Limitations

State variations

D1P7 Evacuation lifts 2019: DP7

State variations

D1P8 Carparking for people with a disability 2019: DP8

Limitations

State variations

D1P9 Communication systems for people with hearing impairment 2019: DP9

Limitations

State variations

Verification Methods

D1V1 Wire barriers 2019: DV1

State variations

D1V2 Access to and within a building 2019: DV2

State variations

D1V3 Ramp gradient, crossfall, surface profile and slip resistance for ramps used by wheelchairs 2019: DV3

State variations

D1V4 Fire Safety Verification Method 2019: DV4

State variations

D1O1

Objective

2019: DO1

D1F1

Access

2019: DF1

D1F2

Egress

2019: DF2

D1P1

Access for people with a disability

2019: DP1

D1P2

Safe movement to and within a building

2019: DP2

D1P3

Fall prevention barriers

2019: DP3

D1P4

Exits

2019: DP4

D1P5

Fire-isolated exits

2019: DP5

D1P6

Paths of travel to exits

2019: DP6

D1P7

Evacuation lifts

2019: DP7

D1P8

Carparking for people with a disability

2019: DP8

D1P9

Communication systems for people with hearing impairment

2019: DP9

D1V1

Wire barriers

2019: DV1

D1V2

Access to and within a building

2019: DV2

D1V3

Ramp gradient, crossfall, surface profile and slip resistance for ramps used by wheelchairs

2019: DV3

D1V4

Fire Safety Verification Method

2019: DV4