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Walking and Working Surfaces

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Title: Subpart D Author: Scott W. Tritt Last modified by: THG Created Date: 1/13/1999 5:46:12 AM Document presentation format: On-screen Show Company – PowerPoint PPT presentation

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Title: Walking and Working Surfaces


1
Walking and Working Surfaces
  • Special emphasis on Fall Protection

2
The Regulations
  • 1910.27 - Fixed ladders.
  • 1910.28 - Safety requirements for scaffolding.
  • 1910.29 - Manually propelled mobile ladder stands
    and scaffolds (towers).
  • 1910.30 - Other working surfaces.
  • 1910 Subpart D - Authority for 1910 Subpart D
  • 1910.21 - Definitions.
  • 1910.22 - General requirements.
  • 1910.23 - Guarding floor and wall openings and
    holes.
  • 1910.24 - Fixed industrial stairs.
  • 1910.25 - Portable wood ladders.
  • 1910.26 - Portable metal ladders.

3
General RequirementsHousekeeping
  • All places of employment, passageways,
    storerooms, and service rooms shall be kept clean
    and orderly and in a sanitary condition.
  • The floor of every workroom shall be maintained
    in a clean and, so far as possible, a dry
    condition. Where wet processes are used, drainage
    shall be maintained and gratings, mats, or raised
    platforms shall be provided.
  • Every floor, working place and passageway shall
    be kept free from protruding nails, splinters,
    holes, or loose boards.

4
General RequirementsAisles Passageways
  • Aisles and passageways shall be kept clear and in
    good repair with no obstruction across or in
    aisles that could create a hazard.
  • Permanent aisles and passageways shall be
    appropriately marked.
  • Where mechanical handling equipment is used,
    aisles shall be sufficiently wide. Improper aisle
    widths coupled with poor housekeeping and vehicle
    traffic can cause injury to employees, damage the
    equipment and material, and can limit egress in
    emergencies.

5
General RequirementsCovers Guardrails
  • Covers and/or guardrails shall be provided to
    protect personnel from the hazards of open pits,
    tanks, vats, ditches, and the like.
  • Skylights shall also be protected to prevent
    accidental falling through.

6
General RequirementsFloor Loading Protection
  • Load rating limits shall be marked on plates and
    conspicuously posted.
  • It shall be unlawful to place, or cause, or
    permit to be placed, on any floor or roof of a
    building or other structure, a load greater than
    that for which such floor or roof is approved.

7
Determining an Opening
  • Floor hole. An opening measuring less than 12
    inches but more than 1 inch in its least
    dimension, in any floor, platform, pavement or
    yard, through which materials but not persons may
    fall.
  • Floor opening. An opening measuring 12 inches or
    more in its least dimension, in any floor,
    platform, pavement, or yard, through which
    persons may fall.
  • Platform. A working space for persons, elevated
    above the surrounding floor or ground.
  • Wall hole. An opening less than 30 inches but
    more than 1 inch high, of unrestricted width, in
    any wall or partition.
  • Wall opening. An opening at least 30 inches high
    and 18 inches wide, in any wall or partition,
    through which persons may fall.

8
Protection for Floor Openings
  • Standard railings shall be provided on all
    exposed sides of a stairway opening, except at
    the stairway entrance.
  • For infrequently used stairways, where traffic
    across the opening prevents the use of a fixed
    standard railing, the guard shall consist of a
    hinged floor opening cover of standard strength
    and construction along with removable standard
    railings on all exposed sides, except at the
    stairway entrance.

9
Protection for Floor Openings
  • A "standard railing" consists of top rail, mid
    rail, and posts, and shall have a vertical height
    of 42 inches nominal from the upper surface of
    top rail to floor, platform, runway, or ramp
    level. Nominal height of mid rail is 21 inches.
  • A "standard toeboard" is 4 inches nominal in
    vertical height, with not more than ¼-inch
    clearance above floor level.

10
Protection for Floor Openings
  • Floor openings may be covered rather than guarded
    with rails.
  • When the floor opening cover is removed,
  • a temporary guardrail shall be in place,
  • or an attendant shall be stationed at the opening
    to warn personnel.
  • Every floor hole into which persons can
    accidentally walk shall be guarded by either
  • A standard railing with toeboard, or
  • A floor hole cover of standard strength and
    construction.

11
Protection of Open-Sided Floors Platforms
  • Every open-sided floor or platform 4 feet or more
    above adjacent floor or ground level shall be
    guarded by a standard railing on all open sides.
  • Except where there is an entrance to a ramp,
    stairway, or fixed ladder.
  • The railing shall be provided with a toeboard
    wherever, beneath the open sides
  • Persons can pass,
  • There is moving machinery, or
  • There is equipment with which falling materials
    could create a hazard.

12
Protection of Open-Sided Floors Platforms
  • Regardless of height, open-sided floors,
    walkways, platforms, or runways above or adjacent
    to dangerous equipment, pickling or galvanizing
    tanks, degreasing units, and similar hazards
    shall be guarded with a standard railing and
    toeboard.

13
Stairway Railings Guards
  • Every flight of stairs with four or more risers
    shall have standard stair railings or standard
    handrails.
  • On stairways less than 44 inches wide having both
    sides enclosed, at least one handrail shall be
    affixed, preferably on the right side descending.
  • On stairways less than 44 inches wide with one
    open side, at least one stair rail shall be
    affixed on the open side.
  • On stairways less than 44 inches wide having both
    sides open, two stair rails shall be provided,
    one for each side.
  • On stairways more than 44 inches wide, but less
    than 88 inches, one handrail shall be provided on
    each enclosed side and one stair rail on each
    open side.
  • On stairways 88 inches or more in width, one
    handrail shall be provided on each enclosed side,
    one stair rail on each open side, and one
    intermediate stair rail placed approximately in
    the middle of the stairs.

14
Standard Stair Railing
  • The vertical height shall be not more than 34
    inches nor less than 30 inches from the upper
    surface of the top rail to the surface of the
    tread.
  • The lengthwise member shall be mounted directly
    on a wall or partition by means of brackets
    attached to the lower side of the handrail in
    order to keep a smooth, unobstructed surface
    along the top and both sides of the handrail.
  • The supports for the rail shall be 3 inches from
    the wall and be no more than 8 feet apart.
  • The height of handrails shall be no more than 34
    inches nor less than 30 inches from the upper
    surface of the handrail to the surface of the
    tread

15
Fixed Industrial Stairs
  • Fixed Industrial Stairs shall be provided for
    access to and from places of work where
    operations necessitate regular travel between
    levels.
  • OSHA requirements include
  • Fixed industrial stairs shall be strong enough to
    carry five times the normal anticipated live
    load.
  • At the very minimum, any fixed stairway shall be
    able to carry safely a moving concentrated load
    of 1000 pounds.
  • All fixed stairways shall have a minimum width of
    22 inches.
  • Fixed stairs shall be installed at angles to the
    horizontal of between 30 degrees and 50 degrees.
  • Vertical clearance above any stair tread to an
    overhead obstruction shall be at least 7 feet
    measured from the leading edge of the tread.

16
Inspecting Stairs
  • Handrails and Stair rails
  • A. Lack of
  • B. Placement
  • C. Smoothness of surface
  • D. Strength
  • E. Clearance between rail and wall or other
    object
  • Treads
  • A. Strength
  • B. Slip resistance
  • C. Dimensions
  • D. Evenness of surface
  • E. Visibility of leading edge
  • Improper/inadequate design, construction or
    location of staircases.
  • Wet, slippery, or damaged walking or grasping
    surfaces.
  • Improper illumination...there is no general OSHA
    standard for illumination levels. The
    Illuminating Engineering Society publications
    should be consulted for recommendations.
  • Poor housekeeping

17
Use of Ladders
  • Ladders shall be placed with a secure footing, or
    they shall be lashed, or held in position.
  • Ladders used to gain access to a roof or other
    area shall extend at least 3 feet above the point
    of support.
  • The top of a regular stepladder shall not be used
    as a step.
  • Use both hands when climbing or descending
    ladders.
  • Metal ladders shall never be used near electrical
    equipment.

18
Use of Ladders
  • The foot of a ladder shall, where possible, be
    used at such a pitch that the horizontal distance
    from the top support to the foot of the ladder is
    one-quarter of the working length of the ladder
    (the length along the ladder between the foot and
    the support).

19
Use of Ladders
  • The worker shall always face the ladder when
    climbing up or down.
  • Short ladders shall not be spliced together to
    make long ladders.
  • Ladders shall never be used in the horizontal
    position as scaffolds or work platforms.

20
Introduction To Fall Protection
  • A basic introduction to fall protection

21
Fall Protection Standard in General Industry
  • 1910.23, Guarding floor and wall openings and
    holes.
  • 1910.66, Powered platforms for building
    maintenance.
  • App A, Guidelines (Advisory).
  • App C, Personal Fall Arrest System (Section I -
    Mandatory Sections II and III - Non-Mandatory).
  • 1910.132, General Requirements (Personal
    Protective Equipment).
  • 1910.269, Electric Power Generation,
    Transmission, and Distribution.
  • References 1926 Subpart M and contains additional
    requirements for fall protection.

22
Frequently Cited Violations
  • Failure to protect workers from falls of 6 feet
    or more off unprotected sides or edges, e.g.
    floors and roofs. (1926.501(b)(1) (b)(10) and
    (b)(11))
  • Failure to protect workers from falling into or
    through holes and openings in floors and walls.
    (1926.501(b)(4) and (b)(14))
  • Failure to provide guardrails on runways and
    ramps where workers are exposed to falls of 6
    feet or more to a lower level. (1926.501(b)(6))

23
Work Positioning Systems
  • These systems are designed to hold and sustain
    the user at a work location and limit the
    free-fall to two feet or less, as in rebar work
    or tree trimming. These are examples of typical
    components of a work positioning system.
  • Body Support Full Body Harness
  • Connecting Component Chain or web rebar
    assembly, rope or web lanyard
  • Anchorage Connector Carabiner or snap hook
  • Anchorage Rebar or Support Structure

24
Restraint Systems
  • These are systems designed to prevent the user
    from reaching an area where free-fall could occur
    so no free-fall is possible, as in leading edge
    roof work. Here are some elements and examples of
    restraint systems.
  • Body Support Full Body Harness or Body Belt
  • Connecting Component Rope or web lanyard
  • Anchorage Connector Carabiner, Tie-Off Adapter,
    Roof Anchor
  • Anchorage Beam or Support Structure

25
Rescue Systems
  • These systems which are designed to raise or
    lower a user to safety in the event of an
    emergency, so no free-fall is possible. (i.e.
    confined space work). The following are the four
    elements of a rescue system and examples of each
  • Body Support Full Body Harness
  • Connecting Component Lifeline (winch, self
    retracting lifeline) and Y-Lanyard
  • Anchorage Connector Tripod, Davit Arm
  • Anchorage Support Structure or Surface

26
Fall Arrest
  • These systems are designed to stop a free-fall of
    up to 6 feet, and limit the maximum forces of a
    user to 1800 pounds or less, as in steel erection
    or elevated maintenance work. The following are
    the four elements of a fall arrest system and
    some examples.
  • Body Support Full Body Harness
  • Connecting Component Shock Absorbing Lanyard,
    Self-Retracting-Lifeline, RopeGrab
  • Anchorage Connector Carabiner, Tie-Off Adapter,
    Trolly, Roof Anchor
  • Anchorage Beam or Support Structure

27
Suspension System
  • These systems support and suspend the user while
    being transported up or down vertically and will
    not allow a free fall. Here are some elements and
    examples of suspension systems.
  • Body Support Full Body Harness and a Botswain's
    Chair
  • Connecting Component Lifeline (rope, rescue
    positioning device) rope or web lanyard
  • Anchorage Connector Carabiner, Tripod, Davit Arm
    Tie-off Adapter
  • Anchorage Beam or Support Structure or Surface

28
Common Pieces of Equipment
Rope Cable Grabs
Self Retracting Lifelines
Shock Absorbing Lanyard
Carabiners
Full Body Harness
Cross-Arm Strap
29
A Typical Fall Arrest Arrangement
  • Consists of
  • Anchorage Connector
  • Shock Absorbing Lanyard
  • Full Body Harness
  • The anchorage connector must be attached to a
    suitable and strong attachment point

30
Requirements for Personal Fall Arrest System
  • Limit maximum arresting force on an employee to
    900 pounds (4 KiloNewtons) when used with a body
    belt
  • Limit maximum arresting force on an employee to
    1,800 pounds (8 KiloNewtons) when used with a
    body harness
  • Be rigged so that an employee can neither free
    fall more than 6 feet (1.8 meters) nor contact
    any lower level
  • Bring an employee to a complete stop and limit
    maximum deceleration distance an employee travels
    to 3.5 feet (1.07 meters) and
  • Have sufficient strength to withstand twice the
    potential impact energy of an employee free
    falling a distance of 6 feet (1.8 meters) or the
    free fall distance permitted by the system,
    whichever is less.

31
Use of Body Belts
  • Effective January 1, 1998, body belts are
    prohibited as a fall arrest device.
  • Body belts can still be used as a positioning
    device.

32
Dee-rings and Snap Hooks
  • Dee-rings and snaphooks must have a minimum
    tensile strength of 5,000 pounds (22.2
    KiloNewtons).
  • Dee-rings and snaphooks shall be proof-tested to
    a minimum tensile load of 3,600 pounds (16
    KiloNewtons) without cracking, breaking, or
    suffering permanent deformation.

33
Additional Training
  • Extensive training is needed to fully understand
    and utilize much of the fall protection equipment
    available.
  • A competent person must evaluate work conditions
    to insure safety when working in elevated
    locations.
  • Most manufacturers provide very extensive
    programs in fall protection.

34
Where help can be found
  • DBI / Sala Systems http//www.dbisala.com/
  • Gravitec Systems http//www.gravitec.com/
  • Elk River, Inc.
  • http//www.dbisala.com/
  • Dalloz Fall Protection http//www.cdalloz.com/home
    .htm
  • http//www.cdalloz.com/fall/millerfpg.pdf
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