Why do we need to learn about Stairs

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Lisa Dawson
5 years ago
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1 STAIRS 1

2 Why do we need to learn about Stairs Interconnectivity of space Accessibility Circulation / Flow Fire escape Functional requirements Design considerations Types of Stairs

3 OBJECTIVES 1. State the functional requirements of stairs 2. Define the various terminology related to stairs 3. Identify the different forms of staircase construction and list the design considerations of staircases. 4. Describe the characteristics of different staircases and compare their advantages and disadvantages. 3

4 Introduction Staircases provide a mean of access between different floor levels within a building 4

5 Functions of Stairs To allow normal access from floor to floor To allow escape from upper floors in the event of fire 5

6 Functional Requirement 1. Strength & stability 2. Fire Resistance 3. Sound Insulation 4. Aesthetics

7 CLASSIFICATION Shape Materials Straight flight Quarter turn Dog leg Timber Concrete Steel Brick Spiral 7

8 Configuration of Staircases 8

9 Configuration of Staircases 9

10 Straight Flight Stairs 10

11 Quarter Turn Stairs 11

12 Half Turn (dog-leg) Staircases 12

13 Spiral Stairs 13

14 CLASSIFICATION Shape Materials Straight flight Quarter turn Dog leg Timber Concrete Steel Brick Spiral 14

15 Timber Stairs 15

16 Concrete Stairs 16

17 Brick Stairs 17

18 Metal Stairs 18

19 Composite Stairs combination of at least two different materials made of concrete or steel composite stairs are steel support with concrete or timber treads 19

20 Components of A Staircase Treads and Risers Strings Closed String Open or Cut String Landings Balustrades Open balustrade Closed balustrade 20

21 Open Strings Cut to the profile of the treads and risers to support them 21

22 Closed Strings Encloses the treads and risers which it supports and top edge protrude 50-63mm above nosing 22

23 Landings 23

24 Handrail,Baluster & Newel Post Baluster Handrail Newel post 24

25 Closed Balustrades Consists of framed or unframed panels acting as baluster to support the handrail 25

26 Open Balustrades Vertical balusters spaced at certain interval to support the handrail 26

27 Handrails & Balustrades 27

28 Stair Terminology Stair Terminology

29 Stair Terminology Stair Terminology

Basic Design Considerations The risers and treads within each flight of stairs shall be of uniform height and size. The height of a riser shall not be more than 175 mm.

30 Basic Design Considerations The risers and treads within each flight of stairs shall be of uniform height and size. The height of a riser shall not be more than 175 mm. The width of a tread shall not be less than 275 mm. The width of a tread of any staircase in any residential unit shall not be less than 225mm. The width of a tread of any staircase in any industrial building shall not be less than 250mm. The width of the tread of any tapered step shall be taken as that when measured at a distance of 500mm from the narrower end. Tread Riser 30

31 Basic Design Considerations The pitch of the stair shall be a maximum of 42. The clearance of headroom should not be less than 2.0 m measured vertically above pitch line. 31

32 Basic Design Considerations A landing shall be provided at every floor level and door opening. Except for spiral staircases, an intermediate landing shall be provided in between floor levels at intervals of not more than 18 risers. The clear width of any landing, measured from the handrail or kerb (whichever protrudes further into the landing) to the wall or external railing of the landing, shall not be less than 900 mm 32

33 Width of Stair & Landing (min 900mm) 33

Basic Design Considerations A handrail shall be provided on at least one side of the flight of staircase The height of the handrail shall be between 750mm and 1000mm above the pitch line.

34 Basic Design Considerations A handrail shall be provided on at least one side of the flight of staircase The height of the handrail shall be between 750mm and 1000mm above the pitch line. Where there is a vertical drop in level of 1.0 m or more (for a staircase with more than say 5 steps), appropriate measures shall be taken to prevent people from falling from a height. Where a barrier is used to prevent falling from a height, the barrier shall not have any feature that facilitates the climbing of the barrier. The height of a barrier shall not be less than 1.0 m. The height of a barrier at the flight of stairs is measured vertically from the pitch line to the top of the barrier. 34

Basic Design Considerations Handrails shall: have a circular section of 32mm to 50mm in diameter or an equivalent gripping surface; and have a clear space between the handrail and

35 Basic Design Considerations Handrails shall: have a circular section of 32mm to 50mm in diameter or an equivalent gripping surface; and have a clear space between the handrail and all wall surface (i) not less than 40mm; or (ii) at least 60mm where the wall has a rough surface. A recess containing a handrail shall extend at least 450mm above the top of the rail 35

Basic Design Considerations For a flight of staircase, a) In all buildings, except for industrial buildings, any triangular opening or void formed around a tread, riser and the bottom edge of the

36 Basic Design Considerations For a flight of staircase, a) In all buildings, except for industrial buildings, any triangular opening or void formed around a tread, riser and the bottom edge of the barrier, the size of any opening or gap shall not be large enough as to permit the passage of a sphere of a diameter of 150mm. b) In all buildings, except for industrial buildings, the gap size between any two consecutive steps shall not be large enough as to permit the passage of a sphere of a diameter of 100mm; and c) In industrial buildings, the gap size between any two consecutive steps shall not be large enough as to permit the passage of a sphere of a diameter of 150mm. 36

Except for spiral, circular or geometric staircases, an intermediate landing

37 Basic Design Considerations Number of risers is not to exceed 18 in any flight of steps. Except for spiral, circular or geometric staircases, an intermediate landing shall be provided in between floor levels at intervals of not more than 18 risers. The width of landings should not be less than the width of the stairway. 37

38 Most common Advantages Concrete Staircases good fire resistance Strong better sound insulation Disadvantages Slow in erection wet process Proper training required 38

39 Concrete Staircases Requirements: Concrete Grade 30 or above Minimum concrete cover 20 mm Waist thickness between 100 to 250mm Mild steel or high yield steel bars can be used as reinforcement Handrail to be at least 900 mm above the pitch line 39

40 Concrete Staircases Handrailing Min 900 mm Concrete cover Waist thickness 40

41 Concrete Staircases Finishes Warehouse natural finishes. Add carborundum dust / rubber strips for slip resistance PVC tiles Rubber tiles Carpet mats 41

42 Concrete Staircases 42

43 Advantages Better quality control Saving in site space Faster construction Installation is simple. Disadvantages Requires mass production. Precast Staircases 43

44 Precast Staircases Precast Concrete Treads 44

45 Precast Staircases 45

46 Precast Staircases 46

47 47